Searched for: subject%3A%22Enhanced%255C%2Bbiological%255C%2Bphosphorus%255C%2Bremoval%22
(1 - 8 of 8)
document
Li, Linghang (author)
Aerobic granular sludge (AGS) is an innovative biotechnology extensively applied for treating municipal wastewater, and it can potentially treat sugar industry wastewater. Glucose is a prevalent substrate in sugar industry wastewater; nevertheless, the effect of glucose on AGS systems remains unexplored. In this study, an AGS reactor using...
master thesis 2023
document
Ziliani, Agustina (author), Bovio-Winkler, Patricia (author), Cabezas, Angela (author), Etchebehere, Claudia (author), Garcia, Hector A. (author), López-Vázquez, Carlos M. (author), Brdjanovic, Damir (author), van Loosdrecht, Mark C.M. (author), Rubio-Rincón, Francisco J. (author)
Ca. Accumulibacter was the predominant microorganism (relative FISH bio-abundance of 67 ± 5%) in a lab-scale sequential batch reactor that accomplished enhanced biological phosphorus removal (EBPR) while using glucose and acetate as the carbon sources (1:1 COD-based ratio). Both organic compounds were completely anaerobically consumed. The...
journal article 2023
document
Trebuch, Lukas M. (author), Sohier, Jasper (author), Altenburg, Sido (author), Oyserman, Ben O. (author), Pronk, M. (author), Janssen, Marcel (author), Vet, Louise E.M. (author), Wijffels, René H. (author), Fernandes, Tânia V. (author)
Photogranules are a novel wastewater treatment technology that can utilize the sun's energy to treat water with lower energy input and have great potential for nutrient recovery applications. They have been proven to efficiently remove nitrogen and carbon but show lower conversion rates for phosphorus compared to established treatment systems...
journal article 2023
document
Elahinik, A. (author), Li, L. (author), Pabst, Martin (author), Abbas, B.A. (author), Xevgenos, Dimitris (author), van Loosdrecht, Mark C.M. (author), Pronk, M. (author)
Enhanced biological phosphate removal and aerobic sludge granulation are commonly studied with fatty acids as substrate. Fermentative substrates such as glucose have received limited attention. In this work, glucose conversion by aerobic granular sludge and its impact on phosphate removal was studied. Long-term stable phosphate removal and...
journal article 2023
document
Lyu, Haozheng (author)
Fine sieved fraction (FSF) is a solid waste generated from wastewater treatment plants (WWTPs). Cellulose fiber is the most important component of FSF, which can be fermented into volatile fatty acids (VFAs) and then be used as carbon sources in biological nutrient removal (BNR). This thesis measured and evaluated the aerobic & anaerobic...
master thesis 2022
document
Mohamed, A. Y.A. (author), Welles, L. (author), Siggins, A. (author), Healy, M. (author), Brdjanovic, Damir (author), Rada-Ariza, A. M. (author), Lopez-Vazquez, C. M. (author)
Photo-activated sludge (PAS) systems are an emerging wastewater treatment technology where microalgae provide oxygen to bacteria without the need for external aeration. There is limited knowledge on the optimal conditions for enhanced biological phosphorus removal (EBPR) in systems containing a mixture of polyphosphate accumulating organisms ...
journal article 2021
document
Feng, Cuijie (author), Welles, L. (author), Zhang, X. (author), Pronk, M. (author), de Graaff, D.R. (author), van Loosdrecht, Mark C.M. (author)
Phosphorus has been successfully eliminated from wastewater by biological techniques of enhanced biological phosphorus removal (EBPR) process, which relies on a specific microbiota of polyphosphate accumulating organisms (PAOs) that accumulate phosphate as polyphosphates (poly-P). Most methods for quantification of poly-P pools suffer from...
journal article 2020
document
Wang, Zhongwei (author), Dunne, Aislinn (author), van Loosdrecht, Mark C.M. (author), Saikaly, Pascal E. (author)
Saline wastewater is known to affect the performance of phosphate-accumulating organisms (PAOs) in enhanced biological phosphorus removal (EBPR) process. However, studies comparing the effect of salinity on different PAO clades are lacking. In this study, 'Candidatus Accumulibacter phosphatis' Clade I and II (hereafter referred to as PAOI and...
journal article 2018
Searched for: subject%3A%22Enhanced%255C%2Bbiological%255C%2Bphosphorus%255C%2Bremoval%22
(1 - 8 of 8)