Stephen Johan Neethling
机构: Earth Science and Engineering, Imperial College London
主页: imperial.ac.uk
每年引用次数
引用次数
引用: 3,225
H-指数: 36
I10-指数 : 79
出版物: 155
Modelling the axial dispersion of particles in froths
J.R. Meloy , S.J. Neethling , J.J. Cilliers
International Journal of Mineral Processing 84 ( 1) 185 -191
7
2007
Simple approximations for estimating froth recovery
S.J. Neethling
International Journal of Mineral Processing 89 ( 1) 44 -52
25
2008
Predicting and correcting grade-recovery curves: Theoretical aspects
S.J. Neethling , J.J. Cilliers
International Journal of Mineral Processing 89 ( 1) 17 -22
16
2008
The entrainment factor in froth flotation: Model for particle size and other operating parameter effects
S.J. Neethling , J.J. Cilliers
International Journal of Mineral Processing 93 ( 2) 141 -148
79
2009
Simple relationships for predicting the recovery of liquid from flowing foams and froths
S.J. Neethling , H.T. Lee , J.J. Cilliers
Minerals Engineering 16 ( 11) 1123 -1130
87
2003
The use of FrothSim to optimise the water addition to a column flotation cell
S.J. Neethling , K. Hadler , J.J. Cilliers , A.W. Stradling
Minerals Engineering 19 ( 6-8) 816 -823
7
2006
Simulating realistic froth surfaces
Y. Wang , S.J. Neethling
Minerals Engineering 19 ( 10) 1069 -1076
12
2006
Predicting air recovery in flotation cells
S.J. Neethling , J.J. Cilliers
Minerals Engineering 21 ( 12) 937 -943
20
2008
Combining Positron Emission Particle Tracking and image analysis to interpret particle motion in froths
K.E. Cole , K.E. Waters , X. Fan , S.J. Neethling
Minerals Engineering 23 ( 11-13) 1036 -1044
8
2010
The effects of hydrophobicity and orientation of cubic particles on the stability of thin films
G. Morris , S.J. Neethling , J.J. Cilliers
Minerals Engineering 23 ( 11-13) 979 -984
25
2010
Modelling local scour near structures with combined mesh movement and mesh optimisation
J.M. Nunez Rattia , J.R. Percival , S.J. Neethling , M.D. Piggott
Journal of Computational Physics 375 1220 -1237
1
2018
The relationship between the surface and internal structure of dry foam
Yingjie Wang , Stephen J. Neethling
Colloids and Surfaces A: Physicochemical and Engineering Aspects 339 ( 1-3) 73 -81
27
2009
A Pore Network Model of Carbon-Based Electrodes for Redox Flow Batteries
Andrea Gayon Lombardo , Benedict A. Simon , Oluwadamilola O. Taiwo , Stephen J. Neethling
ECS Meeting Abstracts ( 60) 3033 -3033
2020
Application of B‐splines and curved geometries to boundaries in SPH
Daniel J. Barker , Pablo Brito-Parada , Stephen J. Neethling
International Journal for Numerical Methods in Fluids 76 ( 1) 51 -68
5
2014
Improvements to a smooth particle hydrodynamics simulator for investigating submarine landslide generated waves
Branwen E. Snelling , Gareth S. Collins , Matthew D. Piggott , Stephen J. Neethling
International Journal for Numerical Methods in Fluids 92 ( 7) 744 -764
5
2020
Effect of particle size on the rising behavior of particle-laden bubbles
Peipei Wang , Jan J. Cilliers , Stephen J. Neethling , Pablo R. Brito-Parada
Langmuir 35 ( 10) 3680 -3687
5
2019
Identifying the Transition Capillary Pressure of a Superhydrophobic Surface Containing Cylindrical Rods
Gareth Morris , Stephen J. Neethling , Jan J. Cilliers
Chemistry Letters 41 ( 10) 1303 -1305
1
2012
A pore network model of porous electrodes in electrochemical devices
Andrea Gayon Lombardo , Benedict A. Simon , Oluwadamilola Taiwo , Stephen J. Neethling
Journal of energy storage 24 100736
6
2019
A model for the stability of films stabilized by randomly packed spherical particles.
Gareth D. M. Morris , Stephen J. Neethling , Jan J. Cilliers
Langmuir 27 ( 18) 11475 -11480
15
2011
The behavior of rising bubbles covered by particles
Peipei Wang , Jan J. Cilliers , Stephen J. Neethling , Pablo R. Brito-Parada
Chemical Engineering Journal 365 111 -120
10
2019