Towards energy efficient nanobubble generation with fluidic oscillation WB Zimmerman, V Tesař, HCH Bandulasena Current Opinion in Colloid & Interface Science 16 (4), 350-356, 2011 | 367 | 2011 |
Microflotation performance for algal separation J Hanotu, HCH Bandulasena, WB Zimmerman Biotechnology and bioengineering 109 (7), 1663-1673, 2012 | 225 | 2012 |
Microbubble generation WB Zimmerman, V Tesar, S Butler, HCH Bandulasena Recent patents on engineering 2 (1), 1-8, 2008 | 192 | 2008 |
Design of an airlift loop bioreactor and pilot scales studies with fluidic oscillator induced microbubbles for growth of a microalgae Dunaliella salina WB Zimmerman, M Zandi, HCH Bandulasena, V Tesař, DJ Gilmour, ... Applied Energy 88 (10), 3357-3369, 2011 | 177 | 2011 |
On the design and simulation of an airlift loop bioreactor with microbubble generation by fluidic oscillation WB Zimmerman, BN Hewakandamby, V Tesař, HCH Bandulasena, ... Food and Bioproducts Processing 87 (3), 215-227, 2009 | 163 | 2009 |
Fluidic oscillator-mediated microbubble generation to provide cost effective mass transfer and mixing efficiency to the wastewater treatment plants F Rehman, GJD Medley, H Bandulasena, WBJ Zimmerman Environmental research 137, 32-39, 2015 | 110 | 2015 |
Production of polymeric nanoparticles by micromixing in a co-flow microfluidic glass capillary device R Othman, GT Vladisavljević, HCH Bandulasena, ZK Nagy Chemical Engineering Journal 280, 316-329, 2015 | 76 | 2015 |
CO2 Mass Transfer Induced through an Airlift Loop by a Microbubble Cloud Generated by Fluidic Oscillation MKH Al-Mashhadani, HCH Bandulasena, WB Zimmerman Industrial & Engineering Chemistry Research 51 (4), 1864-1877, 2012 | 69 | 2012 |
Bistable diverter valve in microfluidics V Tesař, HCH Bandalusena Experiments in Fluids 50, 1225-1233, 2011 | 64 | 2011 |
Evaporation dynamics of microbubbles WB Zimmerman, MKH Al-Mashhadani, HCH Bandulasena Chemical Engineering Science 101, 865-877, 2013 | 63 | 2013 |
Oil emulsion separation with fluidic oscillator generated microbubbles J Hanotu, HCH Bandulasena, TY Chiu, WB Zimmerman International Journal of Multiphase Flow 56, 119-125, 2013 | 59 | 2013 |
Production of liposomes using microengineered membrane and co-flow microfluidic device GT Vladisavljević, A Laouini, C Charcosset, H Fessi, HCH Bandulasena, ... Colloids and surfaces A: physicochemical and engineering aspects 458, 168-177, 2014 | 58 | 2014 |
Dielectric barrier discharge plasma microbubble reactor for pretreatment of lignocellulosic biomass A Wright, H Bandulasena, C Ibenegbu, D Leak, T Holmes, W Zimmerman, ... AIChE Journal 64 (11), 3803-3816, 2018 | 53 | 2018 |
Aerator design for microbubble generation JO Hanotu, H Bandulasena, WB Zimmerman Chemical Engineering Research and Design 123, 367-376, 2017 | 46 | 2017 |
Microbubble-enhanced DBD plasma reactor: Design, characterisation and modelling A Wright, M Taglioli, F Montazersadgh, A Shaw, F Iza, HCH Bandulasena Chemical Engineering Research and Design 144, 159-173, 2019 | 35 | 2019 |
Harvesting and dewatering yeast by microflotation J Hanotu, E Karunakaran, H Bandulasena, C Biggs, WB Zimmerman Biochemical engineering journal 82, 174-182, 2014 | 33 | 2014 |
Azimuthally oscillating membrane emulsification for controlled droplet production PS Silva, MM Dragosavac, GT Vladisavljević, HCH Bandulasena, ... AIChE Journal 61 (11), 3607-3615, 2015 | 31 | 2015 |
Microbubble-enhanced dielectric barrier discharge pretreatment of microcrystalline cellulose A Wright, A Marsh, F Ricciotti, A Shaw, F Iza, R Holdich, H Bandulasena Biomass and Bioenergy 118, 46-54, 2018 | 21 | 2018 |
Microfluidic rheometry of a polymer solution by micron resolution particle image velocimetry: a model validation study HCH Bandalusena, WB Zimmerman, JM Rees Measurement Science and Technology 20 (11), 115404, 2009 | 18 | 2009 |
An inverse method for rheometry of power-law fluids HCH Bandulasena, WB Zimmerman, JM Rees Measurement Science and Technology 22 (12), 125402, 2011 | 17 | 2011 |