Reconstructing the neutrally-buoyant particle flow near a singular corner
Article dans une revue avec comité de lecture
Date
2022-04Journal
Acta Mechanica SinicaRésumé
The correction of buoyancy effects is tackled for particles moving close to a singular corner in creeping flow conditions. A few
density-mismatched particle trajectories are used to reconstruct the dynamics of a neutrally-buoyant particle all over the target
domain. We propose to take advantage of the dissipative dynamics of density-mismatched particles in order to probe the target
domain. Thereafter, we retrieve the neutrally-buoyant particle flow all over the domain by reconstructing the phase space of the
density-mismatched particulate flow and taking the limit of the particle-to-fluid density ratio tending to one. The robustness of
such an approach is demonstrated by deliberately ill-conditioning the reconstruction operator. In fact, we show that our algorithm
well performs even when we rely on qualitatively-different density-mismatched orbit topologies or on bundles of close trajectories rather than homogeneously distributed orbits. Potential applications to microfluidics and improvements of the proposed
algorithm are finally discussed.
Fichier(s) constituant cette publication
Cette publication figure dans le(s) laboratoire(s) suivant(s)
Documents liés
Visualiser des documents liés par titre, auteur, créateur et sujet.
-
Communication avec acteDAZIN, Antoine; JOSEPH, Pierric; ROMANÒ, Francesco; GALLAS, Q; MARTY, J; AIGOUY, G; STÔΒEL, M; NIEHUIS, R (IOP Publishing, 2021-01-22)The objective of the ACONIT project is to design, manufacture and test actuators for flow control for an implantation in an aircraft engine. The actuators will fulfil aeronautics requirement in order to increase the ...
-
Article dans une revue avec comité de lectureBARETTER, Alberto; GODARD, Benjamin; ROUSSETTE, Olivier; ROMANÒ, Francesco; BARRIER, Raphael; DAZIN, Antoine; JOSEPH, Pierric (MDPI AG, 2021)On many occasions, fan or compressor stages have to face azimuthal flow distortion at inlet, which affects their performance and stability. These flow distortions can be caused by external events or by some particular ...
-
Article dans une revue avec comité de lectureBARETTER, Alberto; GODARD, Benjamin; JOSEPH, Pierric; ROUSSETTE, Olivier; ROMANO, Francesco; BARRIER, Raphael; DAZIN, Antoine (MDPI AG, 2021-11)On many occasions, fan or compressor stages have to face azimuthal flow distortion at inlet, which affects their performance and stability. These flow distortions can be caused by external events or by some particular ...
-
Article dans une revue avec comité de lectureROMANÒ, Francesco (American Physical Society, 2019)All the methods which estimate the unperturbed fluid flow velocity relying on particle suspensions address the same question: How can the fluid velocity be computed measuring the particles trajectory and/or their velocities? ...
-
Article dans une revue avec comité de lectureROMANÒ, Francesco; FUJIOKA, H.; MURADOGLU, M.; GROTBERG, J. B. (American Physical Society, 2019)The closure of a human lung airway is modeled as an instability of a two-phase flow in a pipe coated internally with a Newtonian liquid. For a thick enough coating, the Plateau-Rayleigh instability creates a liquid plug ...