Optimization of airflow and aeration cycles in a new structured bed reactor configuration for carbon and nitrogen removal.

Autor: Oliveira, Eduardo Paniguel1 (AUTHOR), de Souza, Theo Syrto Octavio2 (AUTHOR), Okada, Dagoberto Y.3 (AUTHOR), Damasceno, Leonardo H. S.1 (AUTHOR), Salustiano, Rogério Esteves1 (AUTHOR), de Moura, Rafael Brito1 (AUTHOR) rafael.moura@unifal-mg.edu.br
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Zdroj: Environmental Technology. Jun2022, Vol. 43 Issue 16, p2540-2552. 13p.
Abstrakt: The Structured Bed Reactor with Recirculation and Intermittent Aeration (SBRRIA) is a reactor configuration that presents high efficiency of organic matter and nitrogen removal, besides low sludge production. However, operational parameters, as the recirculation rate, aeration time, and airflow, are not fully established. A bench-scale structured bed reactor with intermittent aeration was fed with synthetic effluent simulating the characteristics of sanitary sewage. The reactor was operated for 280 days with an operational hydraulic retention time (HRT) of 10 h. The reactor was operated without effluent recirculation for the first time since this approach was not yet reported, and was named Structured Bed Reactor with Intermittent Aeration (SBRIA). The COD removal was higher than 81% for all operational conditions, and the total nitrogen removal ranged from 10 to 80%. The highest efficiencies were obtained with an aeration time of 1 h 45 min (total cycle of 3 h) and an airflow rate of 4.5 L.min−1. Different nitrification and denitrification behaviours were observed, resulting in nitrification efficiencies over 90% when the reactor was submitted to higher aeration times and denitrification efficiencies above 90% when the reactor was submitted to low aeration times. The airflow ranges tested in this study affected the nitrification and the total nitrogen efficiencies. Even without effluent recirculation, the temporal profile showed that there were no peaks in the concentration of the nitrogen forms in the reactor effluent, saving electrical energy up to 75% due to pumping. [ABSTRACT FROM AUTHOR]
Databáze: GreenFILE