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Fourth International Symposium on Turbulence and Shear Flow Phenomena
June, 27-29, 2005, Marriot Hotel, Williamsburg, Virginia, USA

DOI: 10.1615/TSFP4

TURBULENT MASS TRANSFER MECHANISM ACROSS A CONTAMINATED AIR-WATER INTERFACE

pages 971-976
DOI: 10.1615/TSFP4.1610
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摘要

Numerical simulation of high Schmidt number turbulent mass transfer across clean and contaminated air-water interfaces is carried out. At the clean interface, the local scalar flux is predicted fairly well from the surface divergence by applying the Chan and Scriven's stagnation flow model. With increasing the Marangoni number, however, the scalar flux is less correlated with the surface divergence and the gas transfer rate detereorates drastically and eventually approaches the value on a solid wall. From an analysis of a one-dimensional advection-diffusion equation, it is shown that the scalar field near the interface is characterized by two time scales, i.e., renewal and transient time scales, and the surface divergence contributes to the mass transfer only when the renewal time scale is longer than the transient time. The effective surface divergence is extracted from time-series data and found suitable for prediction of gas exchange at clean and slightly contaminated interfaces. In the case of the highly contaminated interface, in which the effective surface divergence is strongly damped, the mass transfer is essentially the same as that on a solid wall.

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