Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Zamansky, Rémi
Vinkovic, Ivana
and
Gorokhovski, Mikhael
2011.
Acceleration of inertial particles in wall bounded flows: DNS and LES with stochastic modelling of the subgrid acceleration.
Journal of Physics: Conference Series,
Vol. 318,
Issue. 5,
p.
052026.
Zamansky, Rémi
Vinkovic, Ivana
and
Gorokhovski, Mikhael
2011.
Solid particle acceleration in a high Reynolds number channel flow: DNS and LES with stochastic modelling of subgrid acceleration.
Journal of Physics: Conference Series,
Vol. 333,
Issue. ,
p.
012019.
Zamansky, R.
Vinkovic, I.
and
Gorokhovski, M.
2011.
Acceleration statistics of solid particles in turbulent channel flow.
Physics of Fluids,
Vol. 23,
Issue. 11,
GERASHCHENKO, S.
GOOD, G.
and
WARHAFT, Z.
2011.
Entrainment and mixing of water droplets across a shearless turbulent interface with and without gravitational effects.
Journal of Fluid Mechanics,
Vol. 668,
Issue. ,
p.
293.
Goswami, Partha S.
and
Kumaran, V.
2011.
Particle dynamics in the channel flow of a turbulent particle–gas suspension at high Stokes number. Part 1. DNS and fluctuating force model.
Journal of Fluid Mechanics,
Vol. 687,
Issue. ,
p.
1.
Soldati, Alfredo
and
Marchioli, Cristian
2012.
Sediment transport in steady turbulent boundary layers: Potentials, limitations, and perspectives for Lagrangian tracking in DNS and LES.
Advances in Water Resources,
Vol. 48,
Issue. ,
p.
18.
Ireland, Peter J.
and
Collins, Lance R.
2012.
Direct numerical simulation of inertial particle entrainment in a shearless mixing layer.
Journal of Fluid Mechanics,
Vol. 704,
Issue. ,
p.
301.
Salazar, Juan P. L. C.
and
Collins, Lance R.
2012.
Inertial particle acceleration statistics in turbulence: Effects of filtering, biased sampling, and flow topology.
Physics of Fluids,
Vol. 24,
Issue. 8,
García-Villalba, Manuel
Kidanemariam, Aman G.
and
Uhlmann, Markus
2012.
DNS of vertical plane channel flow with finite-size particles: Voronoi analysis, acceleration statistics and particle-conditioned averaging.
International Journal of Multiphase Flow,
Vol. 46,
Issue. ,
p.
54.
Nicolai, C.
Jacob, B.
and
Piva, R.
2013.
On the spatial distribution of small heavy particles in homogeneous shear turbulence.
Physics of Fluids,
Vol. 25,
Issue. 8,
Park, Yongnam
and
Lee, Changhoon
2014.
Gravity-driven clustering of inertial particles in turbulence.
Physical Review E,
Vol. 89,
Issue. 6,
Noorani, Azad
Sardina, Gaetano
Brandt, Luca
and
Schlatter, Philipp
2015.
Particle Velocity and Acceleration in Turbulent Bent Pipe Flows.
Flow, Turbulence and Combustion,
Vol. 95,
Issue. 2-3,
p.
539.
Vreman, A. W.
2015.
Turbulence attenuation in particle-laden flow in smooth and rough channels.
Journal of Fluid Mechanics,
Vol. 773,
Issue. ,
p.
103.
Lee, C.-M.
Gylfason, Á.
Perlekar, P.
and
Toschi, F.
2015.
Inertial particle acceleration in strained turbulence.
Journal of Fluid Mechanics,
Vol. 785,
Issue. ,
p.
31.
Parishani, H.
Ayala, O.
Rosa, B.
Wang, L.-P.
and
Grabowski, W. W.
2015.
Effects of gravity on the acceleration and pair statistics of inertial particles in homogeneous isotropic turbulence.
Physics of Fluids,
Vol. 27,
Issue. 3,
Noorani, A.
Vinuesa, R.
Brandt, L.
and
Schlatter, P.
2016.
Aspect ratio effect on particle transport in turbulent duct flows.
Physics of Fluids,
Vol. 28,
Issue. 11,
Ireland, Peter J.
Bragg, Andrew D.
and
Collins, Lance R.
2016.
The effect of Reynolds number on inertial particle dynamics in isotropic turbulence. Part 2. Simulations with gravitational effects.
Journal of Fluid Mechanics,
Vol. 796,
Issue. ,
p.
659.
Yu, W.
Vinkovic, I.
and
Buffat, M.
2016.
Finite-size particles in turbulent channel flow: quadrant analysis and acceleration statistics.
Journal of Turbulence,
Vol. 17,
Issue. 11,
p.
1048.
Yu, Wenchao
Vinkovic, Ivana
and
Buffat, Marc
2016.
Acceleration Statistics of Finite-Size Particles in Turbulent Channel Flow in the Absence of Gravity.
Flow, Turbulence and Combustion,
Vol. 96,
Issue. 1,
p.
183.
Oh, Jungsun
and
Tsai, Christina W.
2018.
A stochastic multivariate framework for modeling movement of discrete sediment particles in open channel flows.
Stochastic Environmental Research and Risk Assessment,
Vol. 32,
Issue. 2,
p.
385.