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Particle transport in turbulent curved pipe flow.

Authors :
Noorani, Azad
Sardina, Gaetano
Brandt, Luca
Schlatter, Philipp
Source :
Journal of Fluid Mechanics; Apr2016, Vol. 793, p248-279, 32p
Publication Year :
2016

Abstract

Direct numerical simulations (DNS) of particle-laden turbulent flow in straight, mildly curved and strongly bent pipes are performed in which the solid phase is modelled as small heavy spherical particles. A total of seven populations of dilute particles with different Stokes numbers, one-way coupled with their carrier phase, are simulated. The objective is to examine the effect of the curvature on micro-particle transport and accumulation. It is shown that even a slight non-zero curvature in the flow configuration strongly impact the particle concentration map such that the concentration of inertial particles with bulk Stokes number 0:45 (based on bulk velocity and pipe radius) at the inner bend wall of mildly curved pipe becomes 12:8 times larger than that in the viscous sublayer of the straight pipe. Near-wall helicoidal particle streaks are observed in the curved configurations with their inclination varying with the strength of the secondary motion of the carrier phase. A reflection layer, as previously observed in particle laden turbulent S-shaped channels, is also apparent in the strongly curved pipe with heavy particles. In addition, depending on the curvature, the central regions of the mean Dean vortices appear to be completely depleted of particles, as observed also in the partially relaminarised region at the inner bend. The turbophoretic drift of the particles is shown to be affected by weak and strong secondary motions of the carrier phase and geometry-induced centrifugal forces. The first- and second-order moments of the velocity and acceleration of the particulate phase in the same configurations are addressed in a companion paper by the same authors. The current data set will be useful for modelling particles advected in wall-bounded turbulent flows where the effects of the curvature are not negligible. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00221120
Volume :
793
Database :
Complementary Index
Journal :
Journal of Fluid Mechanics
Publication Type :
Academic Journal
Accession number :
115818228
Full Text :
https://doi.org/10.1017/jfm.2016.136