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NUNZIO CANCILLA

Cross flow hydrodynamics in regular and random fiber bundles in the Darcyan and non-Darcyan regimes

  • Autori: Cancilla N.; Nicolo G.; Ciofalo M.; Cipollina A.; Tamburini A.; Micale G.
  • Anno di pubblicazione: 2025
  • Tipologia: Articolo in rivista
  • OA Link: http://hdl.handle.net/10447/662037

Abstract

Computational results are presented for cross flow past straight parallel fiber bundles. Different configurations are compared: regular square lattices of circular or elliptic fibers, and random distributions of circular fibers. For these latter, two alternative algorithms for the generation of random clusters, a "static" one and a "dynamic" one, are shown to be equivalent. CFD simulations are conducted for different directions and amplitudes of the driving pressure gradient, yielding Reynolds numbers in both the Darcyan (linear) and non-Darcyan (inertial) regimes, and corresponding permeability polar charts are built. The results depict a complex scenario, which includes isotropic, orthotropic and general anisotropic behaviors. A systematic classification is proposed, distinguishing between configurations that are isotropic for Re -> 0 and become anisotropic only when nonlinear resistance terms become significant (regular lattices of circular fibers), and configurations that are already anisotropic (in particular, orthotropic) for Re -> 0 (regular lattices of elliptic fibers, random clusters of circular fibers).