Titolo | Combination of anaerobic digestion and dienitrification in a hybrid upflow anaerobic filter integrated in a nutrient removal treatment plant |
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Tipo di pubblicazione | Articolo su Rivista peer-reviewed |
Anno di Pubblicazione | 1994 |
Autori | Tilche, A., Bortone G., Forner G., Indulti M., Stante Loredana, and Tesini O. |
Rivista | Water Science and Technology |
Volume | 30 |
Paginazione | 405-414 |
ISSN | 02731223 |
Parole chiave | Aerobic nitrification, Agricultural wastes, Anaerobic digestion, Biofilms, carbon, Chemical oxygen demand, Chemical reactors, conference paper, denitrification, Diggery wastewater, effluent, Effluents, filter, Filters (for fluids), Hybrid upflow anaerobic filter, Italy, Mesophilic anaerobic reactor, nitrate, Nitrification, Nutrient removal treatment plant, Phosphorus, Removal, Sludge bed, sulfate, sulfide, Sulfur compounds, Sus scrofa, Swine, waste water management, waste water recycling, waste water treatment plant, Wastewater treatment, Water treatment plants |
Abstract | A new nutrient removal plant configuration was designed and tested in pilot-scale for the treatment of piggery wastewater. The core of the process is represented by a Hybrid Upflow Anaerobic Filter where both anaerobic digestion and denitrification takes place. The pre-screened piggery wastewater is fed to the mesophilic anaerobic reactor. In the bottom of the sludge bed, anaerobic digestion and sulfate reduction are the prevalent processes. In the upper filter zone, a stream of nitrified clarified effluent is recycled and nitrates are dentrified utilizing the remaining available carbon and sulfides as electron donors. The anaerobic reactor should be slightly overloaded in order to provide VFAs for dentrification. The effluent of the anaerobic reactor is fed to the following P-release step, and aerobic nitrification tank and a final settler. The pilot-plant treated 5 m3 d-1 of pre-screened piggery wastewater. The anaerobic digester (volume 15 m3) demonstrated it was to couple anaerobic digestion and dentrification. The overall plant removal efficiency was around 96% for COD, 92% for nitrogen and 92% for phosphorus. The anaerobic digester contributed 80% to the overall dentrification capacity. |
Note | cited By 17 |
URL | https://www.scopus.com/inward/record.uri?eid=2-s2.0-0028674113&partnerID=40&md5=b3b2d586442fefdd6e3214bc9cefef3c |
Citation Key | Tilche1994405 |