The Oxygenic Photogranule Process for Aeration-Free Wastewater Treatment

Abouhend, Ahmed S.; McNair, Adam; Kuo-Dahab, Wenye Camilla; Watt, Christopher; Butler, Caitlyn S.; Milferstedt, Kim; Hamelin, Jérôme; Seo, Jeong-Mi; Gikonyo, Gitau J.; El-Moselhy, Khalid M.; Park, Chul

doi:10.1021/acs.est.8b00403

Cited by 129 publications

(157 citation statements)

References 34 publications

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“…Previous studies recently reported microalgal enrichment under phototrophic conditions using activated sludge from wastewater treatment as inoculum. 22,23 Hence, it was not surprising to find out that the centrate herein used also contained microalgae.…”

Section: Nutrients Removalmentioning

confidence: 90%

Microalgal–bacterial aggregates with flue gas supply as a platform for the treatment of anaerobic digestion centrate

Vital‐Jácome

Díaz‐Zamorano

Cuautle-Marín

et al. 2019

J of Chemical Tech & Biotech

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BACKGROUND: Centrate treatment using microalgal-bacterial processes might be limited by the hydraulic retention time (HRT) required to achieve satisfactory chemical oxygen demand (COD) and nutrients removal. Moreover, the poor settling of microalgal biomass still limits the technical and economic performance of microalgal-bacterial processes. In this work, the performance of microalgal-bacterial aggregates (MABAs) supplied with flue gas was investigated as an effective strategy to improve the treatment of centrate from anaerobic digestion of winery wastewater. RESULTS: MABAs supplied with flue gas achieved maximum soluble COD, N-NO 3− , P-PO 4 3− and N-NH 4 + removal efficiencies of 95%, 94%, 100%, and 100%, respectively, in five-fold centrate dilution within 7 days of operation. Centrate turbidity or its components did not hinder the performance of the MABAs under the conditions tested and no aggregates were formed in controls without MABAs inoculation. The mean diameter of the MABAs after centrate treatment was the same or even larger than that of the aggregates of the inoculum. Scanning electron microscopy analyses showed that the liquid medium composition influenced the structure and the type of microalgae cells established in the MABAs. CONCLUSION: MABAs-based centrate treatment supported by flue gas is a promising technology for improving COD and nutrients removal from centrate as well as further biomass harvesting.

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Section: Nutrients Removalmentioning

confidence: 90%

Microalgal–bacterial aggregates with flue gas supply as a platform for the treatment of anaerobic digestion centrate

Vital‐Jácome

Díaz‐Zamorano

Cuautle-Marín

et al. 2019

J of Chemical Tech & Biotech

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“…Microalgal-bacterial granules can be obtained under aerated conditions and non-aerated conditions in the presence of light, and are called activated algal granules and photo-granules, respectively (Abouhend et al, 2018;Tiron et al, 2017). During the formation of photo-granules, extracellular polymeric substances secreted by microalgae play a key role, with a higher ratio of polysaccharides to proteins .…”

Section: Microalgal-bacterial Granules Technologymentioning

confidence: 99%

Emerging biological processes for municipal wastewater treatment

Liu¹,

Ji²,

Liu³

2020

A-B Processes: Towards Energy Self-Sufficient Municipal Wastewater Treatment

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“…The production of oxygen by these cyanobacteria via photosynthesis is typically coupled to the oxygen consumption of heterotrophic bacteria that convert organic matter, for example, from wastewater, into CO 2 , which is immediately used by cyanobacteria for biomass synthesis. This syntrophic relationship between bacteria makes photogranules a promising candidate biomass for wastewater treatment (Abouhend et al, 2018, 2020). External aeration in conventional activated sludge is currently the major energy expenditure of wastewater treatment plants (Longo et al, 2016; Shoener et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

“…External aeration in conventional activated sludge is currently the major energy expenditure of wastewater treatment plants (Longo et al, 2016; Shoener et al, 2014). In an OPG process, external aeration is not necessary (Abouhend et al, 2018) and therefore no energy for aeration is required. However, this energy may be off‐set in a bioprocess using OPGs by the energetic requirements of mixing and the potential supply of electric light for pollution removal.…”

Section: Introductionmentioning

confidence: 99%

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Mapping the biological activities of filamentous oxygenic photogranules

Ouazaite

Milferstedt

Hamelin

et al. 2020

Biotech & Bioengineering

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Oxygenic photogranules have been suggested as alternatives to activated sludge in wastewater treatment. Challenging for modeling photogranule‐based processes is the heterogeneity of photogranule morphologies, resulting in different activities by photogranule type. The measurement of microscale‐activities of filamentous photogranules is particularly difficult because of their labile interfaces. We present here an experimental and modeling approach to quantify phototrophic O2 production, heterotrophic O2 consumption, and O2 diffusion in filamentous photogranules. We used planar optodes for the acquisition of spatio‐temporal oxygen distributions combined with two‐dimensional mathematical modeling. Light penetration into the photogranule was the factor controlling photogranule activities. The spatial distribution of heterotrophs and phototrophs had less impact. The photosynthetic response of filaments to light was detectable within seconds, emphasizing the need to analyze dynamics of light exposure of individual photogranules in photobioreactors. Studying other recurring photogranule morphologies will eventually enable the description of photogranule‐based processes as the interplay of interacting photogranule populations.

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The Oxygenic Photogranule Process for Aeration-Free Wastewater Treatment

Cited by 129 publications

References 34 publications

Microalgal–bacterial aggregates with flue gas supply as a platform for the treatment of anaerobic digestion centrate

Microalgal–bacterial aggregates with flue gas supply as a platform for the treatment of anaerobic digestion centrate

Emerging biological processes for municipal wastewater treatment

Mapping the biological activities of filamentous oxygenic photogranules

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