Heterotrophic Kinetic Study and Nitrogen Removal of a Membrane Bioreactor System Treating Real Urban Wastewater under a Pharmaceutical Compounds Shock: Effect of the Operative Variables
Numerous studies have analyzed the viability of the biodegradation and removal of different compounds of emerging concern in biological systems for wastewater treatment. However, the effect on the heterotrophic biomass of organic matter removal is sometimes missed. The aim of the present research wa...
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| Online Access: | https://www.mdpi.com/2073-4441/11/9/1785 |
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doaj-ab39c0c09ff849d78624be323cc1a5f02020-11-25T01:33:30ZengMDPI AGWater2073-44412019-08-01119178510.3390/w11091785w11091785Heterotrophic Kinetic Study and Nitrogen Removal of a Membrane Bioreactor System Treating Real Urban Wastewater under a Pharmaceutical Compounds Shock: Effect of the Operative VariablesAntonio Monteoliva-García0Juan Carlos Leyva-Díaz1Cristina López-López2José Manuel Poyatos3María del Mar Muñío4Jaime Martín-Pascual5Department of Civil Engineering, University of Granada, 18071 Granada, SpainDepartment of Chemical and Environmental Engineering, University of Oviedo, 33006 Oviedo, SpainDepartment of Civil Engineering, University of Granada, 18071 Granada, SpainDepartment of Civil Engineering, University of Granada, 18071 Granada, SpainDepartment of Chemical Engineering, University of Granada, 18071 Granada, SpainDepartment of Civil Engineering, University of Granada, 18071 Granada, SpainNumerous studies have analyzed the viability of the biodegradation and removal of different compounds of emerging concern in biological systems for wastewater treatment. However, the effect on the heterotrophic biomass of organic matter removal is sometimes missed. The aim of the present research was to study the effect of the addition of a mix of three pharmaceuticals (carbamazepine, ciprofloxacin, and ibuprofen) on the behavior of the biomass in two different membrane-based biological systems treating urban wastewater. The present research studied a membrane bioreactor (MBR) pilot plant operating at a similar mixed liquor suspended solids (MLSS) concentration (about 5.5 g/L). This system works as an MBR and is combined with a moving bed biofilm reactor (MBBR-MBR) to treat real urban wastewater at 6 and 10 h of hydraulic retention time (HRT) under three different shocks of pharmaceuticals with increasing concentrations. In all cases, the organic matter removal was, in average terms, higher than about 92% of biochemical oxygen demand on the fifth day (BOD<sub>5</sub>), 79% of chemical oxygen demand (COD), and 85% of total organic carbon (TOC). Nevertheless, the removal is higher in the MBBR-MBR technology under the same HRT and the MLSS is similar. Moreover, the removal increased during the shock of pharmaceutical compounds, especially in the MBR technology. From a kinetic perspective, MBBR-MBR is more suitable for low HRT (6 h) and MBR is more effective for high HRT (10 h). This could be due to the fact that biofilm systems are less sensitive to hostile environments than the MBR systems. The removal of N-NH<sub>4</sub><sup>+</sup> decreased considerably when the pharmaceutical compounds mix was introduced into the system until no removal was detected in cycle 1, even when biofilm was present.https://www.mdpi.com/2073-4441/11/9/1785heterotrophic kineticsmembrane bioreactornitrogenpharmaceutical shock |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Antonio Monteoliva-García Juan Carlos Leyva-Díaz Cristina López-López José Manuel Poyatos María del Mar Muñío Jaime Martín-Pascual |
| spellingShingle |
Antonio Monteoliva-García Juan Carlos Leyva-Díaz Cristina López-López José Manuel Poyatos María del Mar Muñío Jaime Martín-Pascual Heterotrophic Kinetic Study and Nitrogen Removal of a Membrane Bioreactor System Treating Real Urban Wastewater under a Pharmaceutical Compounds Shock: Effect of the Operative Variables Water heterotrophic kinetics membrane bioreactor nitrogen pharmaceutical shock |
| author_facet |
Antonio Monteoliva-García Juan Carlos Leyva-Díaz Cristina López-López José Manuel Poyatos María del Mar Muñío Jaime Martín-Pascual |
| author_sort |
Antonio Monteoliva-García |
| title |
Heterotrophic Kinetic Study and Nitrogen Removal of a Membrane Bioreactor System Treating Real Urban Wastewater under a Pharmaceutical Compounds Shock: Effect of the Operative Variables |
| title_short |
Heterotrophic Kinetic Study and Nitrogen Removal of a Membrane Bioreactor System Treating Real Urban Wastewater under a Pharmaceutical Compounds Shock: Effect of the Operative Variables |
| title_full |
Heterotrophic Kinetic Study and Nitrogen Removal of a Membrane Bioreactor System Treating Real Urban Wastewater under a Pharmaceutical Compounds Shock: Effect of the Operative Variables |
| title_fullStr |
Heterotrophic Kinetic Study and Nitrogen Removal of a Membrane Bioreactor System Treating Real Urban Wastewater under a Pharmaceutical Compounds Shock: Effect of the Operative Variables |
| title_full_unstemmed |
Heterotrophic Kinetic Study and Nitrogen Removal of a Membrane Bioreactor System Treating Real Urban Wastewater under a Pharmaceutical Compounds Shock: Effect of the Operative Variables |
| title_sort |
heterotrophic kinetic study and nitrogen removal of a membrane bioreactor system treating real urban wastewater under a pharmaceutical compounds shock: effect of the operative variables |
| publisher |
MDPI AG |
| series |
Water |
| issn |
2073-4441 |
| publishDate |
2019-08-01 |
| description |
Numerous studies have analyzed the viability of the biodegradation and removal of different compounds of emerging concern in biological systems for wastewater treatment. However, the effect on the heterotrophic biomass of organic matter removal is sometimes missed. The aim of the present research was to study the effect of the addition of a mix of three pharmaceuticals (carbamazepine, ciprofloxacin, and ibuprofen) on the behavior of the biomass in two different membrane-based biological systems treating urban wastewater. The present research studied a membrane bioreactor (MBR) pilot plant operating at a similar mixed liquor suspended solids (MLSS) concentration (about 5.5 g/L). This system works as an MBR and is combined with a moving bed biofilm reactor (MBBR-MBR) to treat real urban wastewater at 6 and 10 h of hydraulic retention time (HRT) under three different shocks of pharmaceuticals with increasing concentrations. In all cases, the organic matter removal was, in average terms, higher than about 92% of biochemical oxygen demand on the fifth day (BOD<sub>5</sub>), 79% of chemical oxygen demand (COD), and 85% of total organic carbon (TOC). Nevertheless, the removal is higher in the MBBR-MBR technology under the same HRT and the MLSS is similar. Moreover, the removal increased during the shock of pharmaceutical compounds, especially in the MBR technology. From a kinetic perspective, MBBR-MBR is more suitable for low HRT (6 h) and MBR is more effective for high HRT (10 h). This could be due to the fact that biofilm systems are less sensitive to hostile environments than the MBR systems. The removal of N-NH<sub>4</sub><sup>+</sup> decreased considerably when the pharmaceutical compounds mix was introduced into the system until no removal was detected in cycle 1, even when biofilm was present. |
| topic |
heterotrophic kinetics membrane bioreactor nitrogen pharmaceutical shock |
| url |
https://www.mdpi.com/2073-4441/11/9/1785 |
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