0000000000237403

AUTHOR

George A. Ekama

showing 13 related works from this author

Mathematical modelling of greenhouse gas emissions from membrane bioreactors: A comprehensive comparison of two mathematical models.

2018

Abstract This paper compares two mathematical models (Model I and Model II) to predict greenhouse gases emission from a University Cape Town (UCT) – membrane bioreactor (MBR) plant. Model I considers N 2 O production only during denitrification. Model II takes into account the ammonia-oxidizing bacteria (AOB) formation pathways for N 2 O. Both models were calibrated adopting real data. Model comparison was performed in terms of (i) sensitivity analysis (ii) best fit and (iii) model prediction uncertainty. On average 6% of factors of Model I and 9% of Model II resulted to be important. In terms of best fit, Model II had a better capability of reproducing the measured data. The average effici…

DenitrificationEnvironmental EngineeringModel prediction0208 environmental biotechnologyBioreactorNitrous OxideSoil scienceBioengineering02 engineering and technology010501 environmental sciencesMembrane bioreactor01 natural sciencesN2O modellingGreenhouse GasesSouth AfricaBioreactorsNutrient removalBioreactorSensitivity (control systems)Waste Management and Disposal0105 earth and related environmental sciencesMathematicsWWTPMathematical modelSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleRenewable Energy Sustainability and the EnvironmentGeneral MedicineModels Theoretical020801 environmental engineeringGreenhouse gasGreenhouse GaseBioresource technology
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The effect of the solids and hydraulic retention time on moving bed membrane bioreactor performance

2018

Abstract The aim of the present paper was to investigate the effect of solids (SRT) and hydraulic (HRT) retention time on Integrated Fixed Film Activated Sludge (IFAS) University of Cape Town (UCT) membrane Bioreactor (MBR). In particular, three different pairs of SRT and HRT values were analysed, namely, Phase I 56 d/30 h, Phase II 31 d/15 h and Phase III 7 d/13 h. The short-term effect of these three SRT/HRT conditions was assessed by analysing several system performance indicators: organic carbon and biological nutrient (nitrogen and phosphorus) removal, biomass respiratory activity, activated sludge filtration properties and membrane fouling. The results showed that the decrease of SRT/…

DenitrificationHydraulic retention timeIntegrated fixed film activated sludgeStrategy and Management0208 environmental biotechnology02 engineering and technology010501 environmental sciencesMembrane bioreactor01 natural sciencesIndustrial and Manufacturing EngineeringBiological phosphorus removal0105 earth and related environmental sciencesGeneral Environmental ScienceChromatography2300Settore ICAR/03 - Ingegneria Sanitaria-AmbientaleRenewable Energy Sustainability and the EnvironmentChemistryMembrane foulingBuilding and ConstructionNitrogen removalPulp and paper industryMembrane BioReactor020801 environmental engineeringStrategy and Management1409 Tourism Leisure and Hospitality ManagementEnhanced biological phosphorus removalActivated sludgeVolatile suspended solidsNitrificationSolid retention timehuman activitiesHydraulic retention timeJournal of Cleaner Production
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Moving bed membrane bioreactors for carbon and nutrient removal: The effect of C/N variation

2017

In this paper, an experimental campaign was carried out on a University of Cape Town Integrated Fixed Film Activated Sludge Membrane Bioreactor (UCT-IFAS-MBR) pilot plant. The aim of the study was to evaluate the effect of the influent C/N ratio on the system performance in terms of organic carbon, nitrogen and phosphorus removal, biomass viability (through respirometry), activated sludge features and membrane filtration properties. The experiments were organized into three phases, characterized by a variation of the C/N ratio (namely, Phase I: C/N= 5, Phase II: C/N =10; Phase III: C/N = 2). The results highlighted that the system performance was significantly affected by C/N ratio. The rem…

Environmental EngineeringIFAS-MBRBiomedical Engineeringchemistry.chemical_elementBioengineering02 engineering and technology010501 environmental sciencesMembrane bioreactor01 natural sciencesRespirometryNutrientAnimal science020401 chemical engineeringNutrient removal0204 chemical engineeringBiofilm; C/N ratio; IFAS-MBR; Nitrification; Nutrient removal; Biotechnology; Bioengineering; Environmental Engineering; Biomedical Engineering0105 earth and related environmental sciencesSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleBiofilmPhosphorusEnvironmental engineeringC/N ratioNitrificationNitrogenActivated sludgePilot plantchemistryNitrificationBiotechnology
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A comprehensive integrated membrane bioreactor model for greenhouse gas emissions

2018

Abstract A comprehensive integrated membrane bioreactor (MBR) model for wastewater treatment is here proposed. The model quantifies the main biological and physical processes. The model describes the biological removal of organic matter, nitrogen and phosphorus including greenhouse gases (carbon dioxide, CO 2 and nitrous oxide, N 2 O). The model takes into account the following main innovative aspects jointly: i. Two-step nitrification process; ii. N 2 O formation due to ammonia-oxidizing bacteria as a product of the hydroxylamine oxidation (NH 2 OH) and of the nitrite (NO 2 − ) reduction; iii. Soluble microbial product (SMP) formation/degradation due to microbial growth and endogenous resp…

Membrane foulingNitrous oxide modellingDenitrificationModel calibrationGeneral Chemical Engineering0208 environmental biotechnologychemistry.chemical_elementWastewater treatment02 engineering and technology010501 environmental sciencesMembrane bioreactor01 natural sciencesIndustrial and Manufacturing Engineeringchemistry.chemical_compoundHydroxylamineEnvironmental ChemistryChemical Engineering (all)0105 earth and related environmental sciencesSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleChemistry (all)Membrane foulingNitrous oxide formation pathwayGeneral ChemistryNitrogen020801 environmental engineeringPilot plantchemistryEnvironmental chemistryNitrificationSewage treatmentChemical Engineering Journal
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Sensitivity and uncertainty analysis of an integrated ASM2d MBR model for wastewater treatment

2018

Abstract An integrated membrane bioreactor (MBR) model was previously proposed and tested. The model provides a comprehensive and detailed description of the nitrogen biological removal processes with respect to up-to-date literature. This paper presents a sensitivity and uncertainty analysis aimed at identifying the key factors affecting the variability of the model predictions. The Standardized Regression Coefficients (SRC) method was adopted for the sensitivity analysis. The uncertainty analysis was employed by running Monte Carlo simulations by varying only the value of the key factors affecting the model outputs. The sensitivity analysis combined with the uncertainty analysis applied h…

Membrane foulingDenitrificationGeneral Chemical Engineering0208 environmental biotechnologyMonte Carlo method02 engineering and technology010501 environmental sciencesMembrane bioreactor01 natural sciencesIndustrial and Manufacturing EngineeringASMLinear regressionEnvironmental ChemistryChemical Engineering (all)Uncertainty analysis0105 earth and related environmental sciencesSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleChemistry (all)General ChemistryMembrane modelling020801 environmental engineeringKey factorsModel uncertaintyEnvironmental scienceSewage treatmentNitrificationBiochemical engineeringChemical Engineering Journal
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UCT-MBR vs IFAS-UCT-MBR for Wastewater Treatment: A Comprehensive Comparison Including N2O Emission

2017

In this study the performance (in terms of carbon and nutrient removal) and N2O emission of two plant configurations adopting innovative technologies were investigated. With this regards, an University Cape Town (UCT) membrane bioreactor (MBR) plant and an Integrated Fixed Film Activated Sludge (IFAS) -UCT-MBR plant were monitored. Both plants treat real wastewater under two different values of the influent carbon nitrogen ratio (C/N = 5 mgCOD/mgN and C/N = 10 mgCOD/mgN). Results have shown the highest carbon and nutrients removal efficiencies for the IFAS-UCT-MBR configuration during both the two investigated C/N values. Furthermore, the lowest N2O emission occurred for the IFAS-UCT-MBR.

biofilm.Settore ICAR/03 - Ingegneria Sanitaria-Ambientalechemistry.chemical_elementgreenhouse gaseMembrane bioreactorPulp and paper industryglobal warmingNutrientActivated sludgeWastewaterCarbon nitrogenchemistryGreenhouse gasEnvironmental scienceSewage treatmentnutrient removalCarbonWWTP Nutrient removal Greenhouse gases Global warming BiofilmWWTP
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Influence of carbon to nitrogen ratio on nitrous oxide emission in an Integrated Fixed Film Activated Sludge Membrane BioReactor plant

2018

Abstract In this study a University of Cape Town (UCT) Integrated Fixed Film Activated Sludge (IFAS) Membrane BioReactor (MBR) wastewater treatment plant was monitored in terms of nitrous oxide (N2O) emissions. The short term effect on the N2O emission due to the influent carbon-to-nitrogen (C/N) ratio variation (C/N ratios of 2, 5 and 10 gCOD/gN) was evaluated. Since in a previous study, the effect of the C/N ratio was studied in the same system without biofilm (UCT-MBR configuration) the main aim here was to investigate the role of biofilms on N2O emissions. Under all the investigated C/N ratios, the N2O fluxes and the average emission factors were lower than that of previous studies with…

N2O-EmmisionDenitrificationCarbon-to-nitrogen ratioStrategy and Management0208 environmental biotechnologychemistry.chemical_element02 engineering and technology010501 environmental sciencesMembrane bioreactor01 natural sciencesIndustrial and Manufacturing Engineeringchemistry.chemical_compoundWWTP0105 earth and related environmental sciencesGeneral Environmental Science2300Settore ICAR/03 - Ingegneria Sanitaria-AmbientaleRenewable Energy Sustainability and the EnvironmentChemistryGlobal warmingEnvironmental engineeringBuilding and ConstructionNitrous oxideNitrogen removalC/N variationequipment and suppliesAnoxic watersNitrogen020801 environmental engineeringStrategy and Management1409 Tourism Leisure and Hospitality ManagementActivated sludgeEnvironmental chemistrySewage treatmentJournal of Cleaner Production
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Solids and Hydraulic Retention Time Effect on N2O Emission from Moving-Bed Membrane Bioreactors

2018

Biological nutrient removal was operated at different solids (SRT) and hydraulic retention times (HRT) in order to assess their influence on nitrous oxide (N2O) emission from a hybrid moving-bed membrane bioreactor. The observed results show that the N2O production decreased when the SRT/HRT was decreased. The maximum N2O gaseous concentration was measured in the aerobic reactor at the end of phase I, and it decreased through phases II and III. From mass balances over the reactors of the system, the aerated (aerobic and membrane) reactors were the largest producers of N2O, showing that the greater part of N2O was produced during the nitrification process.

Petroleum engineeringHydraulic retention timeBiological nutrient removalSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleChemistryGeneral Chemical Engineering0208 environmental biotechnologyN2OChemistry (all)02 engineering and technologyGeneral Chemistry010501 environmental sciences01 natural sciencesIndustrial and Manufacturing Engineering020801 environmental engineeringMembraneSolids retention timeBioreactorIntegrated fixed-film activated-sludge membrane bioreactorChemical Engineering (all)Moving bedHydraulic retention time0105 earth and related environmental sciences
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Integrated fixed-film activated sludge membrane bioreactors versus membrane bioreactors for nutrient removal: A comprehensive comparison

2018

Abstract This research elucidates the pollutants (nutrients and carbon) removal performance and nitrous oxide (N2O) emissions of two pilot plants. Specifically, a University of Cape Town (UCT) Membrane Bioreactor (MBR) plant and an Integrated Fixed Film Activated Sludge (IFAS)-UCT-MBR plant were investigated. The plants were fed with real wastewater augmented with acetate and glycerol in order to control the influent carbon nitrogen ratio (C/N). The short-term effect of the inlet C/N ratio variation (C/N = 5 mgCOD/mgN and C/N = 10 mgCOD/mgN) on the behaviour of both plants was investigated. The results showed that the IFAS-UCT-MBR configuration provided the best performance in terms of poll…

Membrane foulingEnvironmental EngineeringNitrogen0208 environmental biotechnologychemistry.chemical_element02 engineering and technologyWastewater010501 environmental sciencesManagement Monitoring Policy and LawMembrane bioreactorWaste Disposal Fluid01 natural sciencesBioreactorsNutrient removalBioreactorGreenhouse gaseWaste Management and Disposal0105 earth and related environmental sciencesSewageFoulingSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleChemistryBiofilmMembrane foulingMembranes ArtificialGeneral MedicineRespirometryPulp and paper industryNitrogen020801 environmental engineeringActivated sludgeMembraneWastewater
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Kinetics of nitrogen removal in a MBR nutrient removal activated sludge system

2006

The application of membrane bioreactor (MBR) technology to biological nutrient removal (BNR) activated sludge (AS) systems is limited and uncertainty exists as to the impact of the conditions induced by the membranes on the biologically mediated processes of nutrient removal. Two main conditions associated with MBRs are (1) high total suspended solids (TSS) concentrations (8–20 g/L) and (2) different selection pressures due to biomass retention not being based on settleability, compared with conventional systems with secondary settling tanks (SSTs). Recently, Ramphao et al. [1] concluded that incorporating membranes in BNR AS makes a profound difference to the design of the system. Previous…

ChemistryMechanical EngineeringGeneral Chemical EngineeringEnvironmental engineeringBiomassGeneral ChemistryMembrane bioreactorPulp and paper industryMembraneActivated sludgeEnhanced biological phosphorus removalNutrientSettlingGeneral Materials ScienceWater Science and TechnologyTotal suspended solidsDesalination
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Bacterial community structure and removal performances in IFAS-MBRs: A pilot plant case study

2017

Abstract The paper reports the results of an experimental campaign carried out on a University of Cape Town (UCT) integrated fixed-film activated sludge (IFAS) membrane bioreactor (MBR) pilot plant. The pilot plant was analysed in terms of chemical oxygen demand (COD) and nutrients removal, kinetic/stoichiometric parameters, membrane fouling and sludge dewaterability. Moreover, the cultivable bacterial community structure was also analysed. The pilot plant showed excellent COD removal efficiency throughout experiments, with average value higher than 98%, despite the slight variations of the influent wastewater. The achieved nitrification efficiency was close to 98% for most of the experimen…

0301 basic medicineEnvironmental EngineeringNitrogenIFAS-MBR010501 environmental sciencesManagement Monitoring Policy and LawBiologyWastewaterMembrane bioreactor01 natural sciencesWaste Disposal Fluid03 medical and health sciencesBioreactorsMBBRWaste Management and Disposal0105 earth and related environmental sciencesWWTPBiological nutrients removal; Enhanced biological phosphorus removal; IFAS-MBR; MBBR; Membrane bioreactors; WWTP; Environmental EngineeringSewageSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleMembrane foulingChemical oxygen demandEnvironmental engineeringGeneral MedicinePulp and paper industryBiological nutrients removalNitrification030104 developmental biologyActivated sludgeEnhanced biological phosphorus removalPilot plantWastewaterDenitrificationEnhanced biological phosphorus removalMembrane bioreactorNitrification
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Greenhouse gases from membrane bioreactors: New perspectives on monitoring and mathematical modeling

2020

Abstract The awareness that the wastewater sector represents a significant source of greenhouse gas emission has increased, and is the awareness is evident based on the numerous research papers published in technical literature in the last 10 years. This chapter is aimed at providing a timely overview on greenhouse gas production and emission from membrane bioreactors. Specifically, this chapter dedicates particular attention to nitrous oxide (N2O), considering both experimental and mathematical modeling approaches. Referring to the experimental data, the observed results highlighted the significant contribution of the aerated compartments toward nitrous oxide emission as well as the import…

PollutantMembrane bioreactorsNitrous oxideSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleMathematical modelCarbon-to-nitrogen ratioWastewater treatmentNitrous oxideGreenhouse gaschemistry.chemical_compoundWastewaterchemistryGreenhouse gasBioreactorEnvironmental scienceMathematical modelingBiochemical engineeringEffluent
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Greenhouse gases from membrane bioreactors: Mathematical modelling, sensitivity and uncertainty analysis

2017

In this study a new mathematical model to quantify greenhouse gas emissions (namely, carbon dioxide and nitrous oxide) from membrane bioreactors (MBRs) is presented. The model has been adopted to predict the key processes of a pilot plant with pre-denitrification MBR scheme, filled with domestic and saline wastewater. The model was calibrated by adopting an advanced protocol based on an extensive dataset. In terms of nitrous oxide, the results show that an important role is played by the half saturation coefficients related to nitrogen removal processes and the model factors affecting the oxygen transfer rate in the aerobic and MBR tanks. Uncertainty analysis showed that for the gaseous mod…

Environmental EngineeringNitrogen0208 environmental biotechnologyNitrous OxideBioengineering02 engineering and technologyWastewater010501 environmental sciences01 natural sciencesModellingchemistry.chemical_compoundBioreactorsBioreactorGreenhouse gaseWaste Management and DisposalUncertainty analysis0105 earth and related environmental sciencesSettore ICAR/03 - Ingegneria Sanitaria-AmbientaleRenewable Energy Sustainability and the EnvironmentMembraneUncertaintyEnvironmental engineeringGeneral MedicineNitrous oxide020801 environmental engineeringPilot plantWastewaterchemistryGreenhouse gases; Membrane; Modelling; Uncertainty; Wastewater; Bioengineering; Environmental EngineeringGreenhouse gasCarbon dioxideEnvironmental scienceGasesSaturation (chemistry)Bioresource Technology
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