Reducing the cost of CO2 capture from flue gases using membrane technology M Ho, G Allinson, D Wiley Industrial and Engineering Chemistry Research 47, 1562-1568, 2008 | 935* | 2008 |
Reducing the cost of CO2 capture from flue gases using pressure swing adsorption MT Ho, GW Allinson, DE Wiley Industrial & Engineering Chemistry Research 47 (14), 4883-4890, 2008 | 684 | 2008 |
Emerging CO 2 capture systems JC Abanades, B Arias, A Lyngfelt, T Mattisson, DE Wiley, H Li, MT Ho, ... International Journal of Greenhouse Gas Control 40, 126-166, 2015 | 505 | 2015 |
Spacer characterization and pressure drop modelling in spacer-filled channels for ultrafiltration AR Da Costa, AG Fane, DE Wiley Journal of membrane science 87 (1-2), 79-98, 1994 | 501 | 1994 |
Spiral wound modules and spacers: Review and analysis J Schwinge, PR Neal, DE Wiley, DF Fletcher, AG Fane Journal of membrane science 242 (1-2), 129-153, 2004 | 446 | 2004 |
Review of 3D CFD modeling of flow and mass transfer in narrow spacer-filled channels in membrane modules GA Fimbres-Weihs, DE Wiley Chemical Engineering and Processing: Process Intensification 49 (7), 759-781, 2010 | 348 | 2010 |
CFD simulations of net-type turbulence promoters in a narrow channel Z Cao, DE Wiley, AG Fane Journal of Membrane Science 185 (2), 157-176, 2001 | 315 | 2001 |
Techniques for computational fluid dynamics modelling of flow in membrane channels DE Wiley, DF Fletcher Journal of Membrane science 211 (1), 127-137, 2003 | 238 | 2003 |
Numerical study of mass transfer in three-dimensional spacer-filled narrow channels with steady flow GA Fimbres-Weihs, DE Wiley Journal of Membrane Science 306 (1-2), 228-243, 2007 | 197 | 2007 |
Simulation of the flow around spacer filaments between channel walls. 2. Mass-transfer enhancement J Schwinge, DE Wiley, DF Fletcher Industrial & engineering chemistry research 41 (19), 4879-4888, 2002 | 181 | 2002 |
Novel spacer design improves observed flux J Schwinge, DE Wiley, AG Fane Journal of membrane Science 229 (1-2), 53-61, 2004 | 177 | 2004 |
A CFD study of unsteady flow in narrow spacer-filled channels for spiral-wound membrane modules J Schwinge, DE Wiley, DF Fletcher Desalination 146 (1-3), 195-201, 2002 | 172 | 2002 |
Simulation of the flow around spacer filaments between narrow channel walls. 1. Hydrodynamics J Schwinge, DE Wiley, DF Fletcher Industrial & engineering chemistry research 41 (12), 2977-2987, 2002 | 170 | 2002 |
Enzymatic and detergent cleaning of a polysulfone ultrafiltration membrane fouled with BSA and whey MJ Munoz-Aguado, DE Wiley, AG Fane Journal of Membrane Science 117 (1-2), 175-187, 1996 | 157 | 1996 |
Factors influencing critical flux in the membrane filtration of biomass S Madaeni, AG Fane, DE Wiley Proceedings of the Fourth International Membrane Science and Technology …, 1996 | 156* | 1996 |
Comparison of MEA capture cost for low CO2 emissions sources in Australia MT Ho, GW Allinson, DE Wiley International Journal of Greenhouse Gas Control 5 (1), 49-60, 2011 | 155 | 2011 |
A computational fluids dynamics study of buoyancy effects in reverse osmosis DF Fletcher, DE Wiley Journal of membrane science 245 (1-2), 175-181, 2004 | 134 | 2004 |
The effect of filament orientation on critical flux and particle deposition in spacer-filled channels PR Neal, H Li, AG Fane, DE Wiley Journal of Membrane Science 214 (2), 165-178, 2003 | 134 | 2003 |
Optimal design of reverse osmosis module networks F Maskan, DE Wiley, LPM Johnston, DJ Clements AIChE Journal 46 (5), 946-954, 2000 | 128 | 2000 |
Reducing the Cost of CO2 Capture from Flue Gases Using Aqueous Chemical Absorption A Raksajati, MT Ho, DE Wiley Industrial & Engineering Chemistry Research 52 (47), 16887-16901, 2013 | 126 | 2013 |