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Utilizing APTV to investigate the dynamics of polydisperse suspension flows beyond the dilute regime

Brockmann, Philipp ; Symanczyk, Christoph ; Ennayar, Hatim ; Hussong, Jeanette (2022)
Utilizing APTV to investigate the dynamics of polydisperse suspension flows beyond the dilute regime.
In: Experiments in Fluids, 63 (8)
doi: 10.1007/s00348-022-03464-z
Artikel, Bibliographie

Kurzbeschreibung (Abstract)

We present a methodology that allows to measure the dynamics of polydisperse suspension flows by means of Astigmatism Particle Tracking Velocimetry (APTV). Measurements are successfully performed with tridisperse suspensions flows in a square duct of up to Φ=9.1% particle volume fraction. Using a refractive index matching technique, a small amount of the particles (Φ=0.08%) is labeled with fluorescent dye to be visible to the camera during the particle tracking procedure. Calibration measurements are performed for ten different particles diameters dp ranging from dp=15μm to dp=260μm. It is shown that Euclidean calibration curves of different dp overlap outside the focal planes, which induces ambiguities in a polydisperse APTV measurement. In the present approach, this ambiguity can be overcome utilizing the light intensity of a particle image which increases sharply with dp. In this way, extended Euclidean calibration curves can be generated for each particle group which are spatially separated through the light intensity which serves as an additional calibration parameter (Brockmann et al. in Exp Fluids 61(2):67, 2020). The extended Euclidean calibration allows to simultaneously differentiate particles of different sizes and determine their 3D location. This facilitates to investigate the migration behavior of mono- and tridisperse suspension flows which we demonstrate here for square duct flows with cross-sectional areas of 0.6×0.6mm2 and 0.4×0.4mm2 at bulk Reynolds numbers of Reb≈20 and Reb≈40 for particle volume fractions of Φ=0.08% and Φ=9.1%. At Φ=0.08% and Reb=20, we observe particles to arrange themselves in a ring-like formation inside the capillary, henceforth referred to as Pseudo Segré Silberberg Annulus (PSSA), with no significant differences between mono- and polydisperse suspension particle distributions. At Φ=9.1%, particles in monodisperse suspensions scatter around the PSSA. This scattering decreases when dp increases or Reb increases from 20 to 40. Striking differences are observed in polydisperse suspensions. Large particles (60μm) scatter significantly less around the PSSA in the polydisperse case compared to a monodisperse suspension of the same overall volume fraction. In contrast, small and intermediate particles (30μm, 40μm) are repelled by larger particles resulting in regions of high concentration close to the channel walls which can be only observed in the polydisperse case.

Typ des Eintrags: Artikel
Erschienen: 2022
Autor(en): Brockmann, Philipp ; Symanczyk, Christoph ; Ennayar, Hatim ; Hussong, Jeanette
Art des Eintrags: Bibliographie
Titel: Utilizing APTV to investigate the dynamics of polydisperse suspension flows beyond the dilute regime
Sprache: Englisch
Publikationsjahr: 9 August 2022
Verlag: Springer
Titel der Zeitschrift, Zeitung oder Schriftenreihe: Experiments in Fluids
Jahrgang/Volume einer Zeitschrift: 63
(Heft-)Nummer: 8
DOI: 10.1007/s00348-022-03464-z
URL / URN: https://link.springer.com/article/10.1007/s00348-022-03464-z
Kurzbeschreibung (Abstract):

We present a methodology that allows to measure the dynamics of polydisperse suspension flows by means of Astigmatism Particle Tracking Velocimetry (APTV). Measurements are successfully performed with tridisperse suspensions flows in a square duct of up to Φ=9.1% particle volume fraction. Using a refractive index matching technique, a small amount of the particles (Φ=0.08%) is labeled with fluorescent dye to be visible to the camera during the particle tracking procedure. Calibration measurements are performed for ten different particles diameters dp ranging from dp=15μm to dp=260μm. It is shown that Euclidean calibration curves of different dp overlap outside the focal planes, which induces ambiguities in a polydisperse APTV measurement. In the present approach, this ambiguity can be overcome utilizing the light intensity of a particle image which increases sharply with dp. In this way, extended Euclidean calibration curves can be generated for each particle group which are spatially separated through the light intensity which serves as an additional calibration parameter (Brockmann et al. in Exp Fluids 61(2):67, 2020). The extended Euclidean calibration allows to simultaneously differentiate particles of different sizes and determine their 3D location. This facilitates to investigate the migration behavior of mono- and tridisperse suspension flows which we demonstrate here for square duct flows with cross-sectional areas of 0.6×0.6mm2 and 0.4×0.4mm2 at bulk Reynolds numbers of Reb≈20 and Reb≈40 for particle volume fractions of Φ=0.08% and Φ=9.1%. At Φ=0.08% and Reb=20, we observe particles to arrange themselves in a ring-like formation inside the capillary, henceforth referred to as Pseudo Segré Silberberg Annulus (PSSA), with no significant differences between mono- and polydisperse suspension particle distributions. At Φ=9.1%, particles in monodisperse suspensions scatter around the PSSA. This scattering decreases when dp increases or Reb increases from 20 to 40. Striking differences are observed in polydisperse suspensions. Large particles (60μm) scatter significantly less around the PSSA in the polydisperse case compared to a monodisperse suspension of the same overall volume fraction. In contrast, small and intermediate particles (30μm, 40μm) are repelled by larger particles resulting in regions of high concentration close to the channel walls which can be only observed in the polydisperse case.

Zusätzliche Informationen:

Artikel-ID: 129

Fachbereich(e)/-gebiet(e): 16 Fachbereich Maschinenbau
16 Fachbereich Maschinenbau > Fachgebiet Strömungslehre und Aerodynamik (SLA)
DFG-Sonderforschungsbereiche (inkl. Transregio)
DFG-Sonderforschungsbereiche (inkl. Transregio) > Transregios
DFG-Sonderforschungsbereiche (inkl. Transregio) > Transregios > TRR 150 Turbulent chemisch reagierende Mehrphasenströmungen in Wandnähe
Hinterlegungsdatum: 31 Aug 2023 06:03
Letzte Änderung: 31 Aug 2023 10:43
PPN: 511190484
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