Abstract

The use of activated sludge models (ASMs) is a common way in the field of wastewater engineering in terms of plant design, development, optimization, and testing of stand-alone treatment plants. The focus of this study was the development of a joint control system (JCS) for a municipal wastewater treatment plant (mWWTP) and an upstream industrial wastewater treatment plant (iWWTP) to create synergies for saving aeration energy. Therefore, an ASM3 + BioP model of the mWWTP was developed to test different scenarios and to find the best set-points for the novel JCS. A predictive equation for the total nitrogen load (TN) coming from the iWWTP was developed based on real-time data. The predictive TN equation together with an optimized aeration strategy, based on the modelling results, was implemented as JCS. First results of the implementation of the JCS in the real environment showed an increase in energy efficiency for TN removal.

Kleyböcker, A. , Kraus, F. , Meyer, S. , Heinze, J. , Gromadecki, F. , Remy, C. (2024): Full-scale nutrient recovery at a municipal wastewater treatment plant producing struvite and ammonium sulfate solution.

The IWA 2024 Conference on the Design, Operation and Economics of Large Wastewater Treatment Plants, Budapest, Hungary

Abstract

An innovative circular economy (CE) system was implemented at the wastewater treatment plant (WWTP) in Brunswick. The performance of the CE system was evaluated for 4 years: the thermal pressure hydrolysis enhanced the methane production by 18% and increased the digestate dewaterability by 14%. Refractory COD formed in thermal hydrolysis and increased the COD concentration in the WWTP effluent by 4 mg L−1 while still complying with the legal threshold. Struvite production reached high phosphorus recovery rates of >80% with a Mg:P molar ratio ≥0.8. Nitrogen was successfully recovered as ammonium sulfate with high recovery rates of 85–97%. The chemical analyses of secondary fertilizers showed a low pollutant content, posing low risks to soil and groundwater ecosystems. The total carbon footprint of the WWTP decreased due to enhanced biogas production, the recovery of renewable fertilizers and a further reduction of nitrous oxide emissions. Using green energy will be crucial to reach carbon neutrality for the entire WWTP.

Abstract

Der Klimawandel stellt die Wasserwirtschaft vor immer größere Herausforderungen, insbesondere in West- und Südeuropa aufgrund lang anhaltender Dürren. Wie Abwasser im Sinne der Kreislaufwirtschaft als Ressource genutzt werden kann, zeigt ein Unternehmen aus Lleida.

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