Formation, physical characteristics and microbial community structure of aerobic granules in a pilot-scale sequencing batch reactor for real wastewater treatment
Formation, physical characteristics and microbial community structure of aerobic granules in a pilot-scale sequencing batch reactor for real wastewater treatment
In this study, aerobic granular sludge was successfully !developed in a pilot-scale sequencing batch reactor (SBR) installed on site to treat real wastewater using traditional activated sludge as inoculum. Compared with 1 or 2 months required by lab-scale reactor for aerobic granulation, it took about 400 days for activated sludge to transform into granule-dominant sludge in the pilot-scale SBR on site. Although the sludge in the reactor after 400-day operation was a mixture of flocs and granules with floc ratio ranged from 5 to 30%, sludge volume index with 5 min settling (SVI5) always maintained at around 30 mL/g. The similar microbial community structures represented by denaturing gradient gel electrophoresis (DGGE) between coexisted flocs and granules in the reactor indicated no strong microbial selection after the granules were dominant in the reactor. Chemical oxygen demand (COD) and NH4+-N removal efficiencies were above 80 and 98%, respectively, after 50-day operation, and the total inorganic N removal efficiency was about 50%. The results in this study demonstrate that it is feasible to form aerobic granules in pilot-scale SBR reactor and maintain the long-term stability of granular sludge with a high influent quality fluctuation. Meanwhile, stable COD and NH4+-N removal efficiencies can be obtained in the reactor
520-525
Liu, Yong-Qiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Moy, Benjamin
c8a42a14-0379-4a01-9761-20ee9f57340a
Kong, Yun-Hua
bc13e794-5b4b-41f0-8e8f-72e468ea1b64
Tay, Joo-Hwa
1bd3ce87-355e-460f-835b-56cb81f3a1b0
5 May 2010
Liu, Yong-Qiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Moy, Benjamin
c8a42a14-0379-4a01-9761-20ee9f57340a
Kong, Yun-Hua
bc13e794-5b4b-41f0-8e8f-72e468ea1b64
Tay, Joo-Hwa
1bd3ce87-355e-460f-835b-56cb81f3a1b0
Liu, Yong-Qiang, Moy, Benjamin, Kong, Yun-Hua and Tay, Joo-Hwa
(2010)
Formation, physical characteristics and microbial community structure of aerobic granules in a pilot-scale sequencing batch reactor for real wastewater treatment.
Enzyme and Microbial Technology, 46 (6), .
(doi:10.1016/j.enzmictec.2010.02.001).
Abstract
In this study, aerobic granular sludge was successfully !developed in a pilot-scale sequencing batch reactor (SBR) installed on site to treat real wastewater using traditional activated sludge as inoculum. Compared with 1 or 2 months required by lab-scale reactor for aerobic granulation, it took about 400 days for activated sludge to transform into granule-dominant sludge in the pilot-scale SBR on site. Although the sludge in the reactor after 400-day operation was a mixture of flocs and granules with floc ratio ranged from 5 to 30%, sludge volume index with 5 min settling (SVI5) always maintained at around 30 mL/g. The similar microbial community structures represented by denaturing gradient gel electrophoresis (DGGE) between coexisted flocs and granules in the reactor indicated no strong microbial selection after the granules were dominant in the reactor. Chemical oxygen demand (COD) and NH4+-N removal efficiencies were above 80 and 98%, respectively, after 50-day operation, and the total inorganic N removal efficiency was about 50%. The results in this study demonstrate that it is feasible to form aerobic granules in pilot-scale SBR reactor and maintain the long-term stability of granular sludge with a high influent quality fluctuation. Meanwhile, stable COD and NH4+-N removal efficiencies can be obtained in the reactor
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Published date: 5 May 2010
Organisations:
Civil Maritime & Env. Eng & Sci Unit
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Local EPrints ID: 351886
URI: http://eprints.soton.ac.uk/id/eprint/351886
ISSN: 0141-0229
PURE UUID: d64209ae-65af-418a-a522-9cc9539e1752
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Date deposited: 25 Apr 2013 14:39
Last modified: 15 Mar 2024 03:47
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Author:
Benjamin Moy
Author:
Yun-Hua Kong
Author:
Joo-Hwa Tay
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