AI Article Synopsis
- This study explores a novel method for treating domestic wastewater alongside liquid waste from the thermal processing of municipal solid waste using purple phototrophic bacteria (PPB) that utilize carbon and nutrients from their environment.
- The biological treatment process operates in a microaerophilic environment with specific light and feeding schedules, showing promising compliance with Spanish discharge regulations for COD and nitrogen levels.
- Enhanced removal efficiencies for contaminants were achieved by adjusting hydraulic retention times and implementing membrane biorector technology, ultimately demonstrating the potential for scaling up this treatment approach in open systems.
Article Abstract
This work shows the potential of a new way of co-treatment of domestic wastewater (DWW) and a liquid stream coming from the thermal hydrolysis of the organic fraction of municipal solid waste (OFMSW) mediated by a mixed culture of purple phototrophic bacteria (PPB) capable of assimilating carbon and nutrients from the medium. The biological system is an open single-step process operated under microaerophilic conditions at an oxidative reduction potential (ORP) < 0 mV with a photoperiod of 12/24 h and fed during the light stage only so the results can be extrapolated to outdoor open pond operations by monitoring the ORP. The effluent mostly complies with the discharge values of the Spanish legislation in COD and -values (<125 mg/L; <2 mg/L), respectively, and punctually on values in N (<15 mg/L). Applying an HRT of 3 d and a ratio of 100:7 (COD:N), the presence of PPB in the mixed culture surpassed 50% of 16S rRNA gene copies, removing 78% of COD, 53% of N, and 66% of P. Furthermore, by increasing the HRT to 5 d, removal efficiencies of 83% of COD, 65% of N, and 91% of P were achieved. In addition, the reactors were further operated in a membrane bioreactor, thus separating the HRT from the SRT to increase the specific loading rate. Very satisfactory removal efficiencies were achieved by applying an HRT and SRT of 2.3 and 3 d, respectively: 84% of COD, 49% of N, and 93% of P despite the low presence of PPB due to more oxidative conditions, which step-by-step re-colonized the mixed culture until reaching >20% of 16S rRNA gene copies after 49 d of operation. These results open the door to scaling up the process in open photobioreactors capable of treating urban wastewater and municipal solid waste in a single stage and under microaerophilic conditions by controlling the ORP of the system.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10536668 | PMC |
| http://dx.doi.org/10.3390/microorganisms11092324 | DOI Listing |
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