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Fluctuation and re-establishment of aerobic granules properties during the long-term operation period with low strength and low C/N ratio wastewater

Fluctuation and re-establishment of aerobic granules properties during the long-term operation period with low strength and low C/N ratio wastewater
Fluctuation and re-establishment of aerobic granules properties during the long-term operation period with low strength and low C/N ratio wastewater

Long-term structure stability of aerobic granules is critical to maintaining stable wastewater treatment performance. In this study, granulation and long-term stability of sludge-treating synthetic wastewater with a low chemical oxygen demand to nitrogen (COD/N) ratio of 4:1 and COD concentration of 400 mg/L in anoxic-oxic conditions were investigated for over 300 days. Inoculated suspended sludge gradually transformed into granules-dominant sludge on day 80. Due to the improved sludge volume index after 30 min settling (SVI 30 ), mixed liquor suspended solids (MLSS) reached 5.2 g/L on day 140. Without any external intervention or disturbance, aerobic granules started to disintegrate from day 140, causing the increase in SVI and the decrease in biomass concentration until day 210, with the average sludge size reduced to 243 µm. From day 210, granular sludge started to be re-established by re-granulation, and the average granule size increased to 500 µm on day 302. During these disintegration and re-granulation periods, there was no obvious difference in terms of COD removal and nitrification, but microbial species were found more diverse after the re-granulation, with Thauera and Sphingomonas dominant. Although there was no external intervention, the food to microorganisms ratio (F/M) varied significantly due to the changes in biomass concentration caused by strong selective pressure and the change of sludge-settling ability in the reactor. F/M ratios should be controlled between 0.3 and 1.0 gCOD/gSS·d to maintain the stable structure of granules to minimize the fluctuation of sludge properties under the conditions used in this study. Although aerobic granular sludge is able to re-establish itself after disintegration, controlling F/M ratios in a certain range would benefit long-term stability. The findings in this study are significant to deepen the understanding of granule stability with low-strength and low COD ratio wastewater and, thus, provide guidance for maintaining the long-term stability of granules.

Aerobic granules, Disintegration, F/M ratio, Long-term stability, Low carbon to nitrogen ratio, Re-granulation
2227-9717
Cha, Lijuan
2d77d35b-903b-4588-a95c-9c41d014c520
Liu, Yongqiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Duan, Wenyan
5e3db26c-f6ac-4e4d-be78-c89c26faa01d
Yuan, Qiangjun
7ec18c32-fc6b-4675-9538-5e9cd57ae531
Sternberg, Christain
619c52bb-bc0d-4ba3-9859-9230e4af282b
Chen, Fangyuan
04de0527-7726-4f68-810e-289bc2922dc2
Cha, Lijuan
2d77d35b-903b-4588-a95c-9c41d014c520
Liu, Yongqiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Duan, Wenyan
5e3db26c-f6ac-4e4d-be78-c89c26faa01d
Yuan, Qiangjun
7ec18c32-fc6b-4675-9538-5e9cd57ae531
Sternberg, Christain
619c52bb-bc0d-4ba3-9859-9230e4af282b
Chen, Fangyuan
04de0527-7726-4f68-810e-289bc2922dc2

Cha, Lijuan, Liu, Yongqiang, Duan, Wenyan, Yuan, Qiangjun, Sternberg, Christain and Chen, Fangyuan (2021) Fluctuation and re-establishment of aerobic granules properties during the long-term operation period with low strength and low C/N ratio wastewater. Processes, 9 (8), [1290]. (doi:10.3390/pr9081290).

Record type: Article

Abstract

Long-term structure stability of aerobic granules is critical to maintaining stable wastewater treatment performance. In this study, granulation and long-term stability of sludge-treating synthetic wastewater with a low chemical oxygen demand to nitrogen (COD/N) ratio of 4:1 and COD concentration of 400 mg/L in anoxic-oxic conditions were investigated for over 300 days. Inoculated suspended sludge gradually transformed into granules-dominant sludge on day 80. Due to the improved sludge volume index after 30 min settling (SVI 30 ), mixed liquor suspended solids (MLSS) reached 5.2 g/L on day 140. Without any external intervention or disturbance, aerobic granules started to disintegrate from day 140, causing the increase in SVI and the decrease in biomass concentration until day 210, with the average sludge size reduced to 243 µm. From day 210, granular sludge started to be re-established by re-granulation, and the average granule size increased to 500 µm on day 302. During these disintegration and re-granulation periods, there was no obvious difference in terms of COD removal and nitrification, but microbial species were found more diverse after the re-granulation, with Thauera and Sphingomonas dominant. Although there was no external intervention, the food to microorganisms ratio (F/M) varied significantly due to the changes in biomass concentration caused by strong selective pressure and the change of sludge-settling ability in the reactor. F/M ratios should be controlled between 0.3 and 1.0 gCOD/gSS·d to maintain the stable structure of granules to minimize the fluctuation of sludge properties under the conditions used in this study. Although aerobic granular sludge is able to re-establish itself after disintegration, controlling F/M ratios in a certain range would benefit long-term stability. The findings in this study are significant to deepen the understanding of granule stability with low-strength and low COD ratio wastewater and, thus, provide guidance for maintaining the long-term stability of granules.

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Accepted/In Press date: 23 July 2021
e-pub ahead of print date: 26 July 2021
Published date: August 2021
Additional Information: Funding Information: Funding: This work was funded by the National Nature Science Foundation of China, grant numbers 41763016, 41703121, and 41807377. Publisher Copyright: © 2021 by the authors. Licensee MDPI, Basel, Switzerland.
Keywords: Aerobic granules, Disintegration, F/M ratio, Long-term stability, Low carbon to nitrogen ratio, Re-granulation

Identifiers

Local EPrints ID: 450730
URI: http://eprints.soton.ac.uk/id/eprint/450730
DOI: doi:10.3390/pr9081290
ISSN: 2227-9717
PURE UUID: 096073a5-f69a-4e65-ac9f-28b94397b361
ORCID for Yongqiang Liu: ORCID iD orcid.org/0000-0001-9688-1786

Catalogue record

Date deposited: 09 Aug 2021 16:31
Last modified: 17 Mar 2024 03:32

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Contributors

Author: Lijuan Cha
Author: Yongqiang Liu ORCID iD
Author: Wenyan Duan
Author: Qiangjun Yuan
Author: Christain Sternberg
Author: Fangyuan Chen

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