Acoustic filtering of particles in a flow regime

Hydroelectric power is a clean source of energy, providing up to 20% of the World´s electricity. Nevertheless, hydroelectric power plants are plagued with a common problem: silt. The silt causes damage to turbine blades, which then require repairing or replacing. In this study, we investigated the possibility to filter micron-sized particles from water using ultrasound. We designed a custom-made flow chamber and performed flow simulations and experiments to evaluate its efficacy. We used a 195-kHz ultrasound transducer operating in continuous-wave mode with acoustic output powers up to 12W. Our acoustic simulations showed that it should be possible to force a 200-μm particle over 2cm in flow, using an acoustic pressure of 12 MPa. Our flow simulations showed, that the fluid flow is not drastically decreased with the flow chamber, which was validated by the experimental measurements. The flow was not reduced when the ultrasound was activated. The acoustic filtering was effective between acoustic powers of 2.6 and 6.4W, where the particle concentration in the clean output was statistically significantly lower than the null experiments.