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Biological phosphorus and nitrogen removal in a full scale sequencing batch reactor treating piggery wastewater

TitoloBiological phosphorus and nitrogen removal in a full scale sequencing batch reactor treating piggery wastewater
Tipo di pubblicazioneArticolo su Rivista peer-reviewed
Anno di Pubblicazione1999
AutoriTilche, A., Bacilieri E., Bortone G., Malaspina F., Piccinini S., and Stante Loredana
RivistaWater Science and Technology
Volume40
Paginazione199-206
ISSN02731223
Parole chiaveAgricultural wastes, Biological nitrogen removal, Biological phosphorus removal, Biologically organic waste, Chemical equipment, Chemical oxygen demand, Chemicals removal (water treatment), conference paper, controlled study, effluent, effluent standard, Effluents, Low effluent nutrient concentrations, Nitrogen, Optimization, organic compound, Phosphorus, reactor, Sequencing batch reactor, simulation, Swine, waste water treatment plant, Wastewater, Wastewater treatment, Water treatment, Water treatment plants
Abstract

Research activities carried out at ENEA during the last few years allowed the development of a Sequencing Batch Reactor (SBR) that is able to remove biologically organic waste, nitrogen and phosphorus and that was shown to be particularly suited to obtaining low effluent nutrient concentrations even starting from concentrated wastes. Research on optimisation of time cycles and on process modelling, allowed an advanced comprehension of reactor behaviour and the development of a process able to obtain more than 98% removal of nitrogen, phosphorus and COD, and therefore almost capable of matching effluent standards with a sole biological process. On the basis of laboratory results and process modelling, a full scale SBR plant has been designed and realised. This plant, in ten months of operation, is achieving even better results compared to the laboratory ones. Research activities carried out at ENEA during the last few years allowed the development of a Sequencing Batch Reactor (SBR) that is able to remove biologically organic waste, nitrogen and phosphorus and that was shown to be particularly suited to obtaining low effluent nutrient concentrations even starting from concentrated wastes. Research on optimisation of time cycles and on process modelling, allowed an advanced comprehension of reactor behaviour and the development of a process able to obtain more than 98% removal of nitrogen, phosphorus and COD, and therefore almost capable of matching effluent standards with a sole biological process. On the basis of laboratory results and process modelling, a full scale SBR plant has been designed and realised. This plant, in ten months of operation, is achieving even better results compared to the laboratory ones.

Note

cited By 53

URLhttps://www.scopus.com/inward/record.uri?eid=2-s2.0-0032855821&doi=10.1016%2fS0273-1223%2899%2900385-6&partnerID=40&md5=83f27c8e00d431abb3652572aad11ec9
DOI10.1016/S0273-1223(99)00385-6
Citation KeyTilche1999199