To find a possible trade-off between effluent quality, sludge production, energy consumption and GHG emissions, this study monitored the carbon and nutrient removal and greenhouse gas (GHG) emissions in a membrane bioreactor (MBR) pilot plant with intermittent aeration (IA). The pilot plant was operated by alternating aerobic and anoxic conditions inside the biological reactor. Up to 98.2 % of carbon and 76.4 % of nitrogen were respectively remove through this MBR pilot plant with IA. The carbon footprint was equal to 2.4 kgCO 2eq m - 3 . Indirect emissions contributed the most to the carbon footprint (55.3 %), mainly due to energy consumption, despite the alterations in aeration during the pilot plant operation. The result of this study provides theoretical guidance for building the wastewater treatment plant in a sustainable way.
Bosco Mofatto, P.M., Cosenza, A., Di Trapani, D., Wu, L., Ni, B., Mannina, G. (2024). Carbon footprint reduction by coupling intermittent aeration with submerged MBR: A pilot plant study. JOURNAL OF ENVIRONMENTAL CHEMICAL ENGINEERING, 12(4) [10.1016/j.jece.2024.113115].
Carbon footprint reduction by coupling intermittent aeration with submerged MBR: A pilot plant study
Bosco Mofatto, Paulo Marcelo
Primo
;Cosenza, AlidaSecondo
;Di Trapani, Daniele;Mannina, GiorgioUltimo
2024-08-04
Abstract
To find a possible trade-off between effluent quality, sludge production, energy consumption and GHG emissions, this study monitored the carbon and nutrient removal and greenhouse gas (GHG) emissions in a membrane bioreactor (MBR) pilot plant with intermittent aeration (IA). The pilot plant was operated by alternating aerobic and anoxic conditions inside the biological reactor. Up to 98.2 % of carbon and 76.4 % of nitrogen were respectively remove through this MBR pilot plant with IA. The carbon footprint was equal to 2.4 kgCO 2eq m - 3 . Indirect emissions contributed the most to the carbon footprint (55.3 %), mainly due to energy consumption, despite the alterations in aeration during the pilot plant operation. The result of this study provides theoretical guidance for building the wastewater treatment plant in a sustainable way.
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