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Publication details

Document type
Journal articles

Document subtype
Full paper

Title
Sedimentation from binary suspensions in a turbulent gravity current along a V-shaped valley

Participants in the publication
Meriaux, Catherine A. (Author)
IDL
 Kurz-Besson, Cathy B. (Author)
IDL
Summary
We present a study of bidispersed particulate gravity currents at high Reynolds numbers flowing along a V-shaped valley. The speed and width of the currents, the mass deposited by the currents and the density of the deposits were examined by both a box model and lock-exchange experiments in a 5 m long tank. Silicon carbide and glass beads were used for the bidispersed suspension models. The initial conditions of the currents were similar, except that the grain size of the glass beads was successively chosen to be 2, 2.5 and 4 times that of the silicon carbide. For all experiments a Stokes’ settling velocity model, assuming that both particles are spherical, gives a settling rate of the glass beads that is greater than that of the silicon carbide by a factor ranging from 1.6 to 16.5. When the ratio of the Stokes’ settling velocity of the glass beads to that of the silicon carbide is greater than ∼6, we find a complete agreement between the box model and the experiment. In particular, the deposit shows a substantial decline in the mass of the coarser glass beads in the first metre, so that it only contains the finer silicon carbide further downstream. By contrast, when the Stokes’ settling velocity ratio is less than ∼4, only the speed of the current and the total sedimented mass can be well described by the box model. The experimental deposit is otherwise characterized by a slightly increasing density, which the box model fails to match. There is no difference in the deposit density across the valley. For all experiments in the V-shaped valley, the width of the currents decreases with time according to . Analogue experiments in a flat-bottom tank were also performed to assess the influence of the valley on the sedimentation dynamics described above. A similar behaviour with settling velocity ratios was found. This study eventually shows the need for considering particle interactions in even dilute gravity currents at high Reynolds numbers.

Date of Publication
2012

Where published
JOURNAL OF FLUID MECHANICS

Publication Identifiers
ISSN - 0022-1120

Volume
712

Starting page
624
Last page
645

Document Identifiers
DOI - https://doi.org/10.1017/jfm.2012.389

Rankings
SCIMAGO Q1 (2018) - 1.671 - Mechanics of Materials
SCOPUS Q1 (2017) - 1.591 - Mechanics of Materials
Web Of Science Q1 (2018) - 3.137 - PHYSICS, FLUIDS & PLASMAS - SCIE


Export

APA
Meriaux, Catherine A., Kurz-Besson, Cathy B., (2012). Sedimentation from binary suspensions in a turbulent gravity current along a V-shaped valley . JOURNAL OF FLUID MECHANICS, 712, 624-645. ISSN 0022-1120. eISSN .

IEEE
Meriaux, Catherine A., Kurz-Besson, Cathy B., "Sedimentation from binary suspensions in a turbulent gravity current along a V-shaped valley " in JOURNAL OF FLUID MECHANICS, vol. 712, pp. 624-645, 2012. 10.1017/jfm.2012.389

BIBTEX
@article{30093, author = {Meriaux, Catherine A. and Kurz-Besson, Cathy B.}, title = {Sedimentation from binary suspensions in a turbulent gravity current along a V-shaped valley }, journal = {JOURNAL OF FLUID MECHANICS}, year = 2012, pages = {624-645}, volume = 712 }