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Andrew D Bragg
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The effect of Reynolds number on inertial particle dynamics in isotropic turbulence. Part 1. Simulations without gravitational effects
PJ Ireland, AD Bragg, LR Collins
Journal of Fluid Mechanics 796, 617-658, 2016
1552016
The effect of Reynolds number on inertial particle dynamics in isotropic turbulence. Part II: Simulations with gravitational effects
PJ Ireland, AD Bragg, LR Collins
Journal of Fluid Mechanics 796, 659-711, 2016
1302016
New insights from comparing statistical theories for inertial particles in turbulence: I. Spatial distribution of particles
AD Bragg, LR Collins
New Journal of Physics 16 (5), 055013, 2014
1092014
Is vortex stretching the main cause of the turbulent energy cascade?
M Carbone, AD Bragg
Journal of Fluid Mechanics 883, R2, 2020
1002020
Mechanisms for the clustering of inertial particles in the inertial range of isotropic turbulence
AD Bragg, PJ Ireland, LR Collins
Physical Review E 92 (2), 023029, 2015
792015
Multiscale preferential sweeping of particles settling in turbulence
J Tom, AD Bragg
Journal of Fluid Mechanics 871, 244-270, 2019
632019
On the relationship between the non-local clustering mechanism and preferential concentration
AD Bragg, PJ Ireland, LR Collins.
Journal of Fluid Mechanics 780, 327- 343, 2015
622015
New insights from comparing statistical theories for inertial particles in turbulence: II. Relative velocities
AD Bragg, LR Collins
New Journal of Physics 16 (5), 055014, 2014
582014
Forward and backward in time dispersion of fluid and inertial particles in isotropic turbulence
AD Bragg, PJ Ireland, LR Collins
Physics of Fluids 28 (1), 2016
542016
Small-scale dynamics of settling, bidisperse particles in turbulence
R Dhariwal, AD Bragg
Journal of Fluid Mechanics 839, 594-620, 2018
432018
On the theory of drainage area for regular and non-regular points
S Bonetti, AD Bragg, A Porporato
Proceedings of the Royal Society A: Mathematical, Physical and Engineering …, 2018
362018
Effects of Reynolds Number and Stokes Number on Particle-pair Relative Velocity in Isotropic Turbulence: A Systematic Experimental Study
Z Dou, AD Bragg, AL Hammond, Z Liang, LR Collins, H Meng
arXiv preprint arXiv:1711.02050, 2017
352017
Multiscale fluid–particle thermal interaction in isotropic turbulence
M Carbone, AD Bragg, M Iovieno
Journal of Fluid Mechanics 881, 679-721, 2019
342019
Drift-free kinetic equations for turbulent dispersion
A Bragg, DC Swailes, R Skartlien
Physical Review E 86 (5), 056306, 2012
312012
Mechanisms governing the settling velocities and spatial distributions of inertial particles in wall-bounded turbulence
AD Bragg, DH Richter, G Wang
Physical Review Fluids 6 (6), 064302, 2021
292021
Local analysis of the clustering, velocities, and accelerations of particles settling in turbulence
M Momenifar, AD Bragg
Physical Review Fluids 5 (3), 034306, 2020
232020
Influence of Reynolds number on the motion of settling, bidisperse inertial particles in turbulence
M Momenifar, R Dhariwal, AD Bragg
Physical Review Fluids 4 (5), 054301, 2019
232019
Particle-pair relative velocity measurement in high-Reynolds-number homogeneous and isotropic turbulence using 4-frame particle tracking velocimetry
Z Dou, PJ Ireland, AD Bragg, Z Liang, LR Collins, H Meng
Experiments in Fluids 59 (2), 30, 2018
232018
Particle transport in a turbulent boundary layer: Non-local closures for particle dispersion tensors accounting for particle-wall interactions
A Bragg, DC Swailes, R Skartlien
Physics of Fluids (1994-present) 24 (10), 103304, 2012
212012
Semi‐coupling of a field‐scale resolving land‐surface model and WRF‐LES to investigate the influence of land‐surface heterogeneity on cloud development
JS Simon, AD Bragg, PA Dirmeyer, NW Chaney
Journal of Advances in Modeling Earth Systems 13 (10), e2021MS002602, 2021
202021
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