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Acoustic streaming and thermal instability of flow generated by ultrasound in a cylindrical container
Green, Adam Marshall, Jeffrey S. Ma, Dong Wu, Junru
Green, Adam
Marshall, Jeffrey S.
Ma, Dong
Wu, Junru
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© 2016 Author(s).
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10.1063/1.4965899
Abstract
A vertically orientated ultrasonic transducer contained within a closed cylindrical Pyrex tube was used to study the acoustic streaming flow within a cylindrical container. A particle-image velocimetry (PIV) system incorporating fluorescent 1.5 μm seeding particles suspended in a mixture of diethyl-phthalate and ethanol, whose optical index was matched to that of Pyrex, was used to allow for undistorted PIV imaging within the Pyrex tube. Temperature on the end-wall surface and acoustic pressure within the cylinder were measured for different end-wall materials. Variables considered included acoustic absorption and reflection coefficients, ultrasound intensity, container height, and thermal properties of the end-wall material. It was observed that a quasi-steady flow field driven by acoustic streaming is rapidly established within the container, which is typically dominated by a stationary vortex ring with downward flow along the ring axis. After sufficient time this quasi-stationary flow exhibits a thermal instability causing it to transform into a secondary flow state. Different types of secondary flow states were observed, including cases where the flow along the cylinder axis is oriented upward toward the ultrasound transducer and cases where the axial flow changes directions along the cylinder axis.
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2016-10-01
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Green A, Marshall JS, Ma D, Wu J. Acoustic streaming and thermal instability of flow generated by ultrasound in a cylindrical container. Physics of Fluids. 2016 Oct 31;28(10):104105.