Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Performance analysis of three pilot‐scale multi‐compartment anaerobic baffled reactors treating domestic wastewater at psychrophilic temperatures in Colorado
A transition from inefficient aerobic wastewater treatment methods to sustainable approaches is needed. Anaerobic bioreactors are a viable solution as they consume less energy, reduce biosolid production, and provide a source of renewable methane‐rich biogas. A barrier to widespread implementation of anaerobic technologies is the lack of design guidance, especially in colder climates. This study bridges this knowledge gap by deriving design principles from three long‐running pilot‐scale anaerobic baffled reactors (ABRs) operating under psychrophilic conditions. The ABRs removed an average of 56% and 80% chemical oxygen demand (COD) and suspended solids, respectively, with a methane yield of 0.21 L CH4/g CODrem. Methane production may be improved with increased influent sCOD concentrations and decreased sulfate concentrations. Results suggest that ABRs can treat a range of wastewater strengths accompanied by useable methane production. Despite sharing location, temperature, and HRT, the ABRs displayed distinct performances, highlighting the significance of influent wastewater characteristics. ABRs achieved 56% and 80% removal efficiencies for COD and suspended solids. Average biogas was 63% methane, and methane yield was 0.21 L CH4/g CODrem. Volumetric methane production was positively correlated with the influent sCOD/sulfate ratio and negatively correlated with influent sulfate loading.
Performance analysis of three pilot‐scale multi‐compartment anaerobic baffled reactors treating domestic wastewater at psychrophilic temperatures in Colorado
A transition from inefficient aerobic wastewater treatment methods to sustainable approaches is needed. Anaerobic bioreactors are a viable solution as they consume less energy, reduce biosolid production, and provide a source of renewable methane‐rich biogas. A barrier to widespread implementation of anaerobic technologies is the lack of design guidance, especially in colder climates. This study bridges this knowledge gap by deriving design principles from three long‐running pilot‐scale anaerobic baffled reactors (ABRs) operating under psychrophilic conditions. The ABRs removed an average of 56% and 80% chemical oxygen demand (COD) and suspended solids, respectively, with a methane yield of 0.21 L CH4/g CODrem. Methane production may be improved with increased influent sCOD concentrations and decreased sulfate concentrations. Results suggest that ABRs can treat a range of wastewater strengths accompanied by useable methane production. Despite sharing location, temperature, and HRT, the ABRs displayed distinct performances, highlighting the significance of influent wastewater characteristics. ABRs achieved 56% and 80% removal efficiencies for COD and suspended solids. Average biogas was 63% methane, and methane yield was 0.21 L CH4/g CODrem. Volumetric methane production was positively correlated with the influent sCOD/sulfate ratio and negatively correlated with influent sulfate loading.
Performance analysis of three pilot‐scale multi‐compartment anaerobic baffled reactors treating domestic wastewater at psychrophilic temperatures in Colorado
Callahan, Jennie L. (Autor:in) / Pfluger, Andrew R. (Autor:in) / Coffey, Carolyn L. (Autor:in) / Figueroa, Linda A. (Autor:in) / Munakata‐Marr, Junko (Autor:in)
01.12.2023
17 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Pilot-scale study of an anaerobic baffled reactor for the treatment of domestic wastewater
| British Library Conference Proceedings | 2002
| Taylor & Francis Verlag | 2020