Marais et al, 2020 Effect of hydraulic residence time on the hybrid linear flow channel reactor.xlsx (29.28 kB)
Effect of hydraulic residence time on biological sulphate reduction and elemental sulphur recovery in a single-stage hybrid linear flow channel reactor
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posted on 2020-11-25, 06:26 authored by Tynan MaraisTynan Marais, Robert HuddyRobert Huddy, Susan T L HarrisonSusan T L Harrison, Robert van HilleThis dataset contains relevant experimental data collected for the research described in the linked publication (Marais et al., 2020). This includes system operating conditions, measured pH and redox measurements as well as sulphate, sulphide and volatile fatty acid concentrations over the duration of the study required for monitoring process performance of the hybrid LFCR.
The study evaluates the effect of hydraulic residence time on biological sulphate reduction and sulphide oxidation kinetics within the hybrid LFCR process as well the recovery efficiency of elemental sulphur.
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NRF Freestanding Post Doctoral Fellowship UID 116772
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University of Cape Town, Chemical Engineering, Centre for Bioprocess Engineering ResearchUsage metrics
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biological sulphate reductionpartial sulphide oxidationfloating sulphur biofilmsemi-passive bioprocesselemental sulphur recoverylinear flow channel reactormine impacted waterEnvironmental TechnologiesBiological EngineeringBioprocessing, Bioproduction and BioproductsBioremediationEnvironmental Rehabilitation (excl. Bioremediation)
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