CFD modelling of hydrocyclone—prediction of cut size M Narasimha, R Sripriya, PK Banerjee International Journal of Mineral Processing 75 (1-2), 53-68, 2005 | 222 | 2005 |
Large eddy simulation of hydrocyclone—prediction of air-core diameter and shape M Narasimha, M Brennan, PN Holtham International Journal of Mineral Processing 80 (1), 1-14, 2006 | 168 | 2006 |
Numerical simulation of industrial hydrocyclones performance: Role of turbulence modelling TR Vakamalla, N Mangadoddy Separation and Purification Technology 176, 23-39, 2017 | 127 | 2017 |
A review of CFD modelling for performance predictions of hydrocyclone M Narasimha, M Brennan, PN Holtham Engineering Applications of Computational Fluid Mechanics 1 (2), 109-125, 2007 | 125 | 2007 |
A comprehensive CFD model of dense medium cyclone performance M Narasimha, MS Brennan, PN Holtham, TJ Napier-Munn Minerals Engineering 20 (4), 414-426, 2007 | 107 | 2007 |
Development of novel hydrocyclone designs for improved fines classification using multiphase CFD model TR Vakamalla, VBR Koruprolu, R Arugonda, N Mangadoddy Separation and Purification Technology 175, 481-497, 2017 | 101 | 2017 |
Multiphase modelling of hydrocyclones–prediction of cut-size MS Brennan, M Narasimha, PN Holtham Minerals Engineering 20 (4), 395-406, 2007 | 101 | 2007 |
A semi-mechanistic model of hydrocyclones—Developed from industrial data and inputs from CFD M Narasimha, AN Mainza, PN Holtham, MS Powell, MS Brennan International Journal of Mineral Processing 133, 1-12, 2014 | 83 | 2014 |
Computational and experimental study of the effect of inclination on hydrocyclone performance TR Vakamalla, KS Kumbhar, R Gujjula, N Mangadoddy Separation and purification technology 138, 104-117, 2014 | 78 | 2014 |
CFD modeling of hydrocyclones: Prediction of particle size segregation M Narasimha, MS Brennan, PN Holtham Minerals Engineering 39, 173-183, 2012 | 74 | 2012 |
Numerical simulation of magnetite segregation in a dense medium cyclone M Narasimha, MS Brennan, PN Holtham Minerals Engineering 19 (10), 1034-1047, 2006 | 68 | 2006 |
Study of flow behaviour in a three-product cyclone using computational fluid dynamics A Mainza, M Narasimha, MS Powell, PN Holtham, M Brennan Minerals Engineering 19 (10), 1048-1058, 2006 | 57 | 2006 |
Air‐Core Size Measurement of Operating Hydrocyclone by Electrical Resistance Tomography A Rakesh, VTSR Kumar Reddy, M Narasimha Chemical Engineering & Technology 37 (5), 795-805, 2014 | 39 | 2014 |
Hydrodynamic study of two phase flow of column flotation using electrical resistance tomography and pressure probe techniques B Vadlakonda, N Mangadoddy Separation and Purification Technology 184, 168-187, 2017 | 33 | 2017 |
Study on multi-component particle behaviour in a hydrocyclone classifier using experimental and computational fluid dynamics techniques M Padhi, N Mangadoddy, T Sreenivas, TR Vakamalla, AN Mainza Separation and Purification Technology 229, 115698, 2019 | 32 | 2019 |
Coupled DEM-CFD model to predict the tumbling mill dynamics K Mayank, M Malahe, I Govender, N Mangadoddy Procedia IUTAM 15, 139-149, 2015 | 32 | 2015 |
Forced convection in cross flow of power law fluids over a tube bank N Mangadoddy, R Prakash, RP Chhabra, V Eswaran Chemical engineering science 59 (11), 2213-2222, 2004 | 32 | 2004 |
Hydrodynamic study of three-phase flow in column flotation using electrical resistance tomography coupled with pressure transducers B Vadlakonda, N Mangadoddy Separation and Purification Technology 203, 274-288, 2018 | 30 | 2018 |
Air-core modelling for hydrocyclones operating with solids M Narasimha, AN Mainza, PN Holtham, MS Brennan International Journal of Mineral Processing 102, 19-24, 2012 | 29 | 2012 |
Understanding the bicomponent particle separation mechanism in a hydrocyclone using a computational fluid dynamics model M Padhi, M Kumar, N Mangadoddy Industrial & Engineering Chemistry Research 59 (25), 11621-11644, 2020 | 27 | 2020 |