Archivio Istituzionale della RicercaThe backreaction of dispersed rigid fibers to turbulence is analyzed by means of a state-of-the-art fully coupled immersed boundary method. The following universal scenario is identified: turbulence at large scales looses a consistent part of its kinetic energy (via a Darcy friction term), which partially reappears at small scales where a new range of energy-containing scales does emerge. Large-scale mixing is thus depleted in favor of a new mixing mechanism arising at the smallest scales. Anchored fibers cause the same backreaction to turbulence as moving fibers of large inertia. Our results thus provide a link between two apparently separated realms: the one of porous media and the one of suspension dynamics.
Dispersed Fibers Change the Classical Energy Budget of Turbulence via Nonlocal Transfer / Olivieri, Stefano; Brandt, Luca; Rosti, Marco E.; Mazzino, Andrea. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 125:11(2020). [10.1103/physrevlett.125.114501]
Dispersed Fibers Change the Classical Energy Budget of Turbulence via Nonlocal Transfer
Brandt, Luca;
2020
Abstract
The backreaction of dispersed rigid fibers to turbulence is analyzed by means of a state-of-the-art fully coupled immersed boundary method. The following universal scenario is identified: turbulence at large scales looses a consistent part of its kinetic energy (via a Darcy friction term), which partially reappears at small scales where a new range of energy-containing scales does emerge. Large-scale mixing is thus depleted in favor of a new mixing mechanism arising at the smallest scales. Anchored fibers cause the same backreaction to turbulence as moving fibers of large inertia. Our results thus provide a link between two apparently separated realms: the one of porous media and the one of suspension dynamics.
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https://hdl.handle.net/11583/2990596