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Comparison of hybrid membrane aerated biofilm reactor (MABR)/suspended growth and conventional biological nutrient removal processes
Comparison of hybrid membrane aerated biofilm reactor (MABR)/suspended growth and conventional biological nutrient removal processes
by Yang, Cheng , Carlson, Avery L. , Daigger, Glen T. , He, Huanqi
in Aeration / Ammonia / Anoxia / anoxic suspended growth / Bioaccumulation / Biodegradability / Biodegradation / Biofilms / Biological activity / biological nitrogen removal / biological phosphorus removal / Biological wastewater treatment / Bioreactors / Chemical oxygen demand / Denitrification / Efficiency / Effluents / Growth / Influents / Liquor / Mathematical models / membrane aerated biofilm reactor (mabr) / Membranes / Modelling / Nitrogen / Nitrogen removal / Nutrient removal / Nutrients / Organic matter / Oxygen requirement / Phosphorus / Phosphorus removal / process modelling / Reactors / Removal / Residence time / Sewage / Simulation / Waste Disposal, Fluid / Wastewater
2021
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Comparison of hybrid membrane aerated biofilm reactor (MABR)/suspended growth and conventional biological nutrient removal processes
by Yang, Cheng , Carlson, Avery L. , Daigger, Glen T. , He, Huanqi
in Aeration / Ammonia / Anoxia / anoxic suspended growth / Bioaccumulation / Biodegradability / Biodegradation / Biofilms / Biological activity / biological nitrogen removal / biological phosphorus removal / Biological wastewater treatment / Bioreactors / Chemical oxygen demand / Denitrification / Efficiency / Effluents / Growth / Influents / Liquor / Mathematical models / membrane aerated biofilm reactor (mabr) / Membranes / Modelling / Nitrogen / Nitrogen removal / Nutrient removal / Nutrients / Organic matter / Oxygen requirement / Phosphorus / Phosphorus removal / process modelling / Reactors / Removal / Residence time / Sewage / Simulation / Waste Disposal, Fluid / Wastewater
2021
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Comparison of hybrid membrane aerated biofilm reactor (MABR)/suspended growth and conventional biological nutrient removal processes
Comparison of hybrid membrane aerated biofilm reactor (MABR)/suspended growth and conventional biological nutrient removal processes
by Yang, Cheng , Carlson, Avery L. , Daigger, Glen T. , He, Huanqi
in Aeration / Ammonia / Anoxia / anoxic suspended growth / Bioaccumulation / Biodegradability / Biodegradation / Biofilms / Biological activity / biological nitrogen removal / biological phosphorus removal / Biological wastewater treatment / Bioreactors / Chemical oxygen demand / Denitrification / Efficiency / Effluents / Growth / Influents / Liquor / Mathematical models / membrane aerated biofilm reactor (mabr) / Membranes / Modelling / Nitrogen / Nitrogen removal / Nutrient removal / Nutrients / Organic matter / Oxygen requirement / Phosphorus / Phosphorus removal / process modelling / Reactors / Removal / Residence time / Sewage / Simulation / Waste Disposal, Fluid / Wastewater
2021

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Comparison of hybrid membrane aerated biofilm reactor (MABR)/suspended growth and conventional biological nutrient removal processes
Comparison of hybrid membrane aerated biofilm reactor (MABR)/suspended growth and conventional biological nutrient removal processes
Journal Article

Comparison of hybrid membrane aerated biofilm reactor (MABR)/suspended growth and conventional biological nutrient removal processes

Yang, Cheng,
Carlson, Avery L.,
Daigger, Glen T.,
He, Huanqi
2021
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Overview
Mathematical modelling was used to investigate the possibility to use membrane aerated biofilm reactors (MABRs) in a largely anoxic suspended growth bioreactor to produce the nitrate-nitrogen required for heterotrophic denitrification and the growth of denitrifying phosphorus accumulating organisms (DPAOs). The results indicate that such a process can be used to achieve a variety of process objectives. The capture of influent biodegradable organic matter while also achieving significant total inorganic nitrogen (TIN) removal can be achieved with or without use of primary treatment by operation at a relatively short suspended growth solids residence time (SRT). Low effluent TIN concentrations can also be achieved, irrespective of the influent wastewater chemical oxygen demand (COD)/total nitrogen (TN) ratio, with somewhat larger suspended growth SRT. Biological phosphorus and nitrogen removal can also be effectively achieved. Further experimental work is needed to confirm these modelling results.
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Publisher
IWA Publishing
Subject

Aeration

/ Ammonia

/ Anoxia

/ anoxic suspended growth

/ Bioaccumulation

/ Biodegradability

/ Biodegradation

/ Biofilms

/ Biological activity

/ biological nitrogen removal

/ biological phosphorus removal

/ Biological wastewater treatment

/ Bioreactors

/ Chemical oxygen demand

/ Denitrification

/ Efficiency

/ Effluents

/ Growth

/ Influents

/ Liquor

/ Mathematical models

/ membrane aerated biofilm reactor (mabr)

/ Membranes

/ Modelling

/ Nitrogen

/ Nitrogen removal

/ Nutrient removal

/ Nutrients

/ Organic matter

/ Oxygen requirement

/ Phosphorus

/ Phosphorus removal

/ process modelling

/ Reactors

/ Removal

/ Residence time

/ Sewage

/ Simulation

/ Waste Disposal, Fluid

/ Wastewater

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