Coupling of the Feammox - Anammox pathways by using a sequential discontinuous bioreactor
link https://doi.org/10.1016/j.biortech.2024.130334account_box Gonzalez, Macarenaaccount_box Cerda, Ambaraccount_box Rodriguez, Carolinaaccount_box Serrano, Jennyferaccount_box Leiva, Eduardo
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Treating nitrogenous compounds in wastewater is a contemporary challenge, prompting novel approaches for ammonium (NH4+) conversion to molecular nitrogen (N2). This study explores the classic anaerobic ammonium oxidation process (Anammox) coupled to the iron-dependent anaerobic ammonium oxidation process (Feammox) in a sequential discontinuous bioreactor (SBR) for NH4+ removal. Feammox and Anammox cultures were individually enriched and combined, optimizing the coupling, and identifying key variables influencing the enrichment process. Adding sodium acetate as a carbon source significantly reduces Fe3+ to Fe2+, indicating Feammox activity. Both Anammox and Feammox processes were successfully operated in SBRs, achieving efficient NH4+ removal (Anammox: 64.6 %; Feammox: 43.4 %). Combining these pathways in a single SBR enhances the NH4+ removal capacity of 50.8 %, improving Feammox efficiency. The Feammox process coupled with Anammox may generate the nitrite (NO2-) needed for Anammox. This research contributes to biotechnological advancements for sustainable nitrogenous compound treatment in SBRs.
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| Autor | Gonzalez, Macarena Cerda, Ambar Rodriguez, Carolina Serrano, Jennyfer Leiva, Eduardo |
| Título | Coupling of the Feammox - Anammox pathways by using a sequential discontinuous bioreactor |
| Revista | Bioresource technology |
| ISSN | 0960-8524 |
| ISSN electrónico | 1873-2976 |
| Volumen | 395 |
| Fecha de publicación | 2024 |
| Resumen | Treating nitrogenous compounds in wastewater is a contemporary challenge, prompting novel approaches for ammonium (NH4+) conversion to molecular nitrogen (N2). This study explores the classic anaerobic ammonium oxidation process (Anammox) coupled to the iron-dependent anaerobic ammonium oxidation process (Feammox) in a sequential discontinuous bioreactor (SBR) for NH4+ removal. Feammox and Anammox cultures were individually enriched and combined, optimizing the coupling, and identifying key variables influencing the enrichment process. Adding sodium acetate as a carbon source significantly reduces Fe3+ to Fe2+, indicating Feammox activity. Both Anammox and Feammox processes were successfully operated in SBRs, achieving efficient NH4+ removal (Anammox: 64.6 %; Feammox: 43.4 %). Combining these pathways in a single SBR enhances the NH4+ removal capacity of 50.8 %, improving Feammox efficiency. The Feammox process coupled with Anammox may generate the nitrite (NO2-) needed for Anammox. This research contributes to biotechnological advancements for sustainable nitrogenous compound treatment in SBRs. |
| Derechos | acceso restringido |
| Agencia financiadora | FONDECYT Iniciacion |
| DOI | 10.1016/j.biortech.2024.130334 |
| Enlace | |
| Id de publicación en WoS | WOS:001171649700001 |
| Palabra clave | Anaerobic iron reduction NH 4+removal Nitrogen Wastewater |
| Tema ODS | 06 Clean Water and Sanitation |
| Tema ODS español | 06 Agua limpia y saneamiento |
| Tipo de documento | artículo |