Mechanics of dense suspensions in turbulent channel flows etc15 Tracking Number 337Presentation: Session: Multiphase and non-Newtonian flows 4 Room: Room D Session start: 10:30 Fri 28 Aug 2015 Francesco Picano francesco.picano@unipd.it Affifliation: University of Padova Pedro Costa P.SimoesCosta@tudelft.nl Affifliation: TU-Delft Wim-Paul Breugem w.p.breugem@tudelft.nl Affifliation: TU-Delft Luca Brandt luca@mech.kth.se Affifliation: KTH Mechanics Topics: - Turbulence in multiphase and non-Newtonian flows Abstract: Dense suspensions are usually investigated in the laminar limit where inertial effects are insignificant. When the flow rate is high enough, i.e. at high Reynolds number, the flow may become turbulent and the interaction between solid and liquid phases modifies the turbulence we know in single-phase fluids. In the present work, we study turbulent channel flows laden with finite-size particles at high volume fraction by means of Direct Numerical Simulations. A direct-forcing Immersed Boundary Method has been adopted to couple liquid and solid phases. We will show that the turbulence is attenuated in dense cases, even though the overall drag is increased because of the particle contribution to the total stress. |