Internal fluid dynamics in levitated drops by fast magnetic resonance velocimetry

A. AMAR; S. STAPF; B. BLUEMICH

PHYSICAL REVIEW E

AMER PHYSICAL SOC

Lugar: New York; Año: 2005 p. 302011 - 302014

1539-3755

Fluid motion inside a levitated drop is determined by the interface properties. Momentum transfer through a highly mobile interface results in stationary vortex patterns inside the drop that dramatically enhance mass transfer between both phases, while immobile interfaces suppress internal dynamics. The presence of small amounts of surface-active substances can result in a partial reduction of interface mobility, the so-called rigid cap. The time dependence of internal flow patterns is presented by means of NMR velocity images of levitated drops, and is compared to fast measurements of the velocity distribution along the three orthogonal coordinates.