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Elaine Govender-Opitz
Elaine Govender-Opitz
Verified email at uct.ac.za - Homepage
Title
Cited by
Cited by
Year
Quantification of growth and colonisation of low grade sulphidic ores by acidophilic chemoautotrophs using a novel experimental system
E Govender, CG Bryan, STL Harrison
Minerals Engineering 48, 108-115, 2013
342013
Modification of the ferric chloride assay for the spectrophotometric determination of ferric and total iron in acidic solutions containing high concentrations of copper
E Govender, STL Harrison, CG Bryan
Minerals Engineering 35, 46-48, 2012
312012
A novel experimental system for the study of microbial ecology and mineral leaching within a simulated agglomerate-scale heap bioleaching system
E Govender, CG Bryan, STL Harrison
Biochemical engineering journal 95, 86-97, 2015
252015
Effect of physico-chemical and operating conditions on the growth and activity of Acidithiobacillus ferrooxidans in a simulated heap bioleaching environment
E Govender, CG Bryan, STL Harrison
Minerals Engineering 75, 14-25, 2015
142015
Kinetics, thermodynamics, and mechanism of Cu (II) ion sorption by biogenic iron precipitate: using the lens of wastewater treatment to diagnose a typical biohydrometallurgical …
B Oladipo, E Govender-Opitz, TV Ojumu
ACS omega 6 (42), 27984-27993, 2021
122021
Modelling microbial transport in simulated low-grade heap bioleaching systems: The hydrodynamic dispersion model
E Govender-Opitz, A Kotsiopoulos, CG Bryan, STL Harrison
Chemical Engineering Science 172, 545-558, 2017
122017
Modelling microbial transport in simulated low-grade heap bioleaching systems: The biomass transport model
E Govender, A Kotsiopoulos, CG Bryan, STL Harrison
Hydrometallurgy 150, 299-307, 2014
92014
Insight into solute and microbial transport in heap (bio) leaching systems using residence time distribution
E Govender-Opitz, A Kotsiopoulos, M Fagan-Endres, STL Harrison
Hydrometallurgy 168, 1-6, 2017
72017
True growth rate kinetics: An account of the colonisation and transport of microorganisms on whole low grade ore, at the agglomerate scale
E Govender, CG Bryan, S Harrison
Advanced Materials Research 825, 468-471, 2013
32013
Microbial immobilisation and adaptation to Cu2+ enhances microbial Fe2+ oxidation for bioleaching of printed circuit boards in the presence of mixed metal ions
MD Maluleke, A Kotsiopoulos, E Govender-Opitz, STL Harrison
Research in Microbiology 175 (1-2), 104148, 2024
12024
A study of permeability and diffusion at the agglomerate-scale in heap (bio) leaching systems
E Govender, T Kotsiopoulos, S Harrison
International Biohydrometallurgy Symposium 1130 (doi:10.4028/www.scientific …, 2015
12015
Exploring microbial adaptation of immobilised acidophilic cultures to improve microbial oxidation rates and copper tolerance in e-waste bioleaching
MD Maluleke, A Kotsiopoulos, E Govender-Opitz, STL Harrison
Minerals Engineering 207, 108560, 2024
2024
BRIEFING NOTE
A Kotsiopoulos, A Strauss, M Maluleke, T Mabuka, R Govender, ...
DEVELOPMENT, 2020
2020
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