Sidestream Centrate treatment using High Purity Oxygen Membrane Bioreactors (HPO– MBR) – Pilot studies

Abstract: The increasing regulatory demands to achieve greater nutrient removal have led to the development of several innovative biological nitrogen removal processes. This paper presents a novel approach based on the combination of membrane technology with the use of High Purity Oxygen (HPO) for the treatment of high strength centrate streams. The study is based on the results from a lab scale MBR pilot plant fed with centrate produced in a municipal WWTP with an anaerobic digestion process. The tests were run under a… Show more

“…A sustainable approach to wastewater treatment has been stimulated by population growth, limited land footprint in urban cities and stricter nutrient discharge limits. The overall purpose of a municipal wastewater treatment plant (WWTP) is to reduce the concentration of nutrients (i.e., Nitrogen and Phosphorus) and organic pollutants within the influent (De Gracia et al, 2013;Iddya et al, 2020). Nitrogen removal is achieved in a two-step treatment process: (1) Nitrification -Aerobic conversion of NH3-N to nitrite (NO2-N), and (2) Denitrification -Anoxic conversion of NO2-N to nitrate (NO3-N).…”

“…Moreover, the advancement of biological nutrient removal (BNR) is driven by increased wastewater flow, nutrient loading, and stricter sewage discharge limits within expansive cities (De Gracia et al, 2013). WWTPs that experience increased nutrient loading, are expected to comply with effluent standards in order to prevent pollution, oxygen depletion and eutrophication in receiving water bodies (Yuan Ren et al, 2016).…”

Sidestream Treatment of Anaerobically Digested Sludge Centrate Using Activated Sludge and Aerobic Granular Sludge Sequencing Batch Reactors

“…A sustainable approach to wastewater treatment has been stimulated by population growth, limited land footprint in urban cities and stricter nutrient discharge limits. The overall purpose of a municipal wastewater treatment plant (WWTP) is to reduce the concentration of nutrients (i.e., Nitrogen and Phosphorus) and organic pollutants within the influent (De Gracia et al, 2013;Iddya et al, 2020). Nitrogen removal is achieved in a two-step treatment process: (1) Nitrification -Aerobic conversion of NH3-N to nitrite (NO2-N), and (2) Denitrification -Anoxic conversion of NO2-N to nitrate (NO3-N).…”

“…Moreover, the advancement of biological nutrient removal (BNR) is driven by increased wastewater flow, nutrient loading, and stricter sewage discharge limits within expansive cities (De Gracia et al, 2013). WWTPs that experience increased nutrient loading, are expected to comply with effluent standards in order to prevent pollution, oxygen depletion and eutrophication in receiving water bodies (Yuan Ren et al, 2016).…”

Sidestream Treatment of Anaerobically Digested Sludge Centrate Using Activated Sludge and Aerobic Granular Sludge Sequencing Batch Reactors

Sidestream Treatment of Full-Strength Dewatering Centrate Using Activated Sludge Sequencing Batch Reactors (AS-SBRs)