Acoustic streaming

Acoustic streaming

Acoustic streaming is a steady current forced by the absorption of high amplitude acoustic oscillations.

This phenomenon can be observed near sound emitters, or in the standing waves within a Kundt's tube.It is the less-known opposite of sound generation by a flow.

There two situations where sound is absorbed in its medium of propagation:
* during propagation [ see video on http://www.lmfa.ec-lyon.fr/perso/Valery.Botton/acoustic_streaming_bis.html (French) ] . The attenuation coefficient is alpha=2etaomega^2/3 ho c^3, following Stokes' law (sound attenuation). This effect is more intense at elevated frequencies and is much greater in air (where attenuation occurs on a characteristic distance alpha^{-1}~10 cm at 1 Mhz) than in water (alpha^{-1}~100 m at 1 Mhz). In air it is know as the "Quartz wind".
* near a boundary. Either when sound reaches a boundary, or when a boundary is vibrating in a still medium. A wall vibrating parallel to itself generates a shear wave, of attenuated amplitude within the Stokes oscillating boundary layer. This effect is localised on an attenuation length of characteristic size delta=(eta/ hoomega)^{1/2} whose order of magnitude is a few microns in both air and water at 1 MHz.

Origin: a body force due to acoustic absorption in the fluid

Acoustic streaming is a non-linear effect. [ Sir James Lighthill (1978) "Acoustic streaming", 61, 391, Journal of Sound and Vibration ] We can decompose the velocity field in a vibration part and a steady part mathbf{u}=mathbf{v}+mathbf{U}, a vector with components u_i=v_i+U_iThe vibration part due to sound, while the steady part is acoustic streaming velocity.The average velocity in time is overline{u}=U, and the Navier–Stokes equations implies for the acoustic streaming velocity:

: overline{ ho}frac{partial U_i}{partial t}+overline{ ho} U_j frac{partial U_i}{partial x_j}=-frac{partial overline{p{x_i}+eta frac{partial^2 U_i}{partial x_j^2}-frac{partial}{partial x_j}(overline{ ho v_i v_j} ).

The steady streaming originates from a steady body force f_i=-{partial}(overline{ ho v_i v_j} )/{partial x_j} that appears on the right hand side. This force is a function of what is known as the Reynolds stresses in turbulence -overline{ ho v_i v_j}. The Reynolds stress is depends on the amplitude of sound vibrations, and the body force reflects diminutions in this sound amplitude.

We see that this stress is non-linear (quadratic) in the velocity amplitude. It is non vanishing only where the velocity amplitude varies. If the velocity of the fluid oscillates because of sound as epsiloncos(omega t), the quadratic non-linearity generates a steady force proportional to scriptstyle overline{epsilon^2cos^2(omega t)}=epsilon^2/2.

Order of magnitude of acoustic streaming velocities

Even if viscosity is responsible for acoustic streaming, the value of viscosity disappears from the resulting streaming velocities.

The order of magnitude of streaming velocities are [ Squires, T. M. & Quake, S. R. (2005) Microfluidics: Fluid physics at the nanoliter scale, Review of Modern Physics, vol. 77, page 977 ] :
* near a boundary (outside of the boundary layer)::U sim -frac{3}{4omega} v frac{d}{dx}v,with x along the wall. The flow is directed towards decreasing sound vibrations (vibration nodes).

* near a vibrating bubble [cite journal | last=Longuet-Higgins | first=M. S. | authorlink=Michael S. Longuet-Higgins | title=Viscous streaming from an oscillating spherical bubble | journal=Proc. R. Soc. Lond. A | year=1998 | volume=454 | pages=725–742 ] of rest radius a, whose radius pulsates with relative amplitude epsilon=delta r/a (or r=epsilon a sin( omega t)), and whose center of mass also periodically translates with relative amplitude epsilon'=delta x/a (or x=epsilon' a sin( omega t/phi)). with a phase shift phi:displaystyle U sim epsilon epsilon' a omega sin phi

References


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