Citation:

Kaku, V. J., M. C. Boufadel, A. D. VENOSA, AND J. W. WEAVER. Flow Dynamics In Eccentrically Rotating Flasks Used For Dispersant Effectiveness Testing. B. Cushman-Roisin (ed.), ENVIRONMENTAL FLUID MECHANICS. Springer, New York, NY, 6(4):385-406, (2006).

Impact/Purpose:

This study focuses on the hydrodynamics of the BF for conducting dispersant testing.

Description:

The evaluation of dispersant effectiveness used for oil spills is commonly done using tests conducted in laboratory flasks. We used a Hot Wire Anemometer (HWA) to characterize mixing dynamics in the Swirling Flask (SF) and the Baffled Flask (BF), the latter is being considered by the EPA to replace the prior to test dispersant effectiveness in the laboratory. Five rotation speeds of the orbital shaker carrying the flasks were considered, Ω = 50. 100, 175 and 200 rpm. The radial and azimuthal water speeds were measured for each Ω. It was found that the flow in the SF is, in general, two-dimensional changing from horizontal at low Ω to axi-symmetric at high Ω. The flow in the BFappeared to be three-dimensional at all rotation speeds. This indicates that the BF is more suitable for representing the (inherently) 3-D flow at sea. In the SF, the speeds and energy dissipation rates ε increased gradually as the rotation speed increased. Those in the BF increased sharply at rotation speeds greater than 150 rpm. At 200 rpm, the Kolmogorov scale (i.e., size of smallest eddies) was about 250 and 50 µm in the SF and B, respectively. Noting that the observed droplet sizes of dispersed oils range from 50 to 400 µm (hence most of it is less than 250 µm), one concludes that the mixing in the SF (even at 200 rpm) is not representative of the vigorous mixing occurring at sea.

URLs/Downloads:

Record Details: