Quadrant analysis in turbulence research: history and evolution
JM Wallace - Annual Review of Fluid Mechanics, 2016 - annualreviews.org
Quadrant analysis is a simple, but quite useful, turbulence data-processing technique that
has been widely used, principally in the investigation of turbulent shear flows. This article …
has been widely used, principally in the investigation of turbulent shear flows. This article …
A critical analysis of turbulence modulation in particulate flow systems: a review of the experimental studies
In multiphase particulate systems, the turbulence of the continuous phase (gas or liquid) is
modulated due to interactions between the continuous phase and the suspended particles …
modulated due to interactions between the continuous phase and the suspended particles …
Velocity and spatial distribution of inertial particles in a turbulent channel flow
Velocity and spatial distribution of inertial particles in a turbulent channel flow Page 1 J. Fluid
Mech. (2019), vol. 872, pp. 367–406. c Cambridge University Press 2019 doi:10.1017/jfm.2019.355 …
Mech. (2019), vol. 872, pp. 367–406. c Cambridge University Press 2019 doi:10.1017/jfm.2019.355 …
A quadrature-based third-order moment method for dilute gas-particle flows
RO Fox - Journal of Computational Physics, 2008 - Elsevier
Dilute gas-particle flows can be described by a kinetic equation containing terms for spatial
transport, gravity, fluid drag, and particle–particle collisions. However, the direct numerical …
transport, gravity, fluid drag, and particle–particle collisions. However, the direct numerical …
Turbulence characteristics of particle-laden pipe flow
AW Vreman - Journal of fluid mechanics, 2007 - cambridge.org
Turbulence characteristics of vertical air–solid pipe flow are investigated in this paper. Direct
numerical simulations of the gas phase have been performed, while the solid particles have …
numerical simulations of the gas phase have been performed, while the solid particles have …
Turbulence attenuation in particle-laden flow in smooth and rough channels
AW Vreman - Journal of Fluid Mechanics, 2015 - cambridge.org
Results of point-particle direct numerical simulations of downward gas–solid flow in smooth
and rough vertical channels are presented. Two-way coupling and inter-particle collisions …
and rough vertical channels are presented. Two-way coupling and inter-particle collisions …
Turbophoresis of small inertial particles: theoretical considerations and application to wall-modelled large-eddy simulations
In wall-bounded turbulent flows, the wall-normal gradient in turbulence intensity causes
inertial particles to move preferentially toward the wall, leading to elevated concentration …
inertial particles to move preferentially toward the wall, leading to elevated concentration …
Evaluation of numerical strategies for large eddy simulation of particulate two-phase recirculating flows
Predicting particle dispersion in recirculating two-phase flows is a key issue for reacting
flows and a potential application of large eddy simulation (LES) methods. In this study …
flows and a potential application of large eddy simulation (LES) methods. In this study …
Modulation of turbulence by saltating particles on erodible bed surface
X Zheng, S Feng, P Wang - Journal of Fluid Mechanics, 2021 - cambridge.org
Large-eddy simulation of a particle-laden flow over an erodible bed is performed to
investigate the effect of heavy, saltating particles on turbulence modulation, using the …
investigate the effect of heavy, saltating particles on turbulence modulation, using the …
Exact regularised point particle (ERPP) method for particle-laden wall-bounded flows in the two-way coupling regime
The exact regularised point particle (ERPP) method is extended to treat the inter-phase
momentum coupling between particles and fluid in the presence of walls by accounting for …
momentum coupling between particles and fluid in the presence of walls by accounting for …