Aerobic granulation in sequencing batch reactors with different reactor height/diameter ratios
Aerobic granulation in sequencing batch reactors with different reactor height/diameter ratios
Effects of reactor height/diameter ratios ranged from 24 to 4 corresponding to reactor settling velocities from 12 to 2 m h?1 on aerobic granulation were investigated. It was found that granules appeared after 1-week operation and granule volume percentages exceeded 50% after 2–3 weeks in four reactors. In addition, similar granule fraction of 94–96% was found at steady state in all four reactors. Sludge volume index (SVI), average sludge size, biomass density and granule settling velocity at steady state were around 50 ml g?1, 1800 ?m, 53 g l?1 and 40 m h?1, respectively, in four reactors. Extracellular polymeric substances (EPS) and specific oxygen uptake rate (SOUR) were around 38 mg g?1 VSS and 40 mg O2 g?1 VSS h?1, respectively. Denaturing gradient gel electrophoresis (DGGE) fingerprint of sludge in four reactors showed the same microbial population shift during the start-up period and same microbial community structure during steady-state period. These results recommended strongly that reactor height/diameter ratio or reactor setting velocity in the used range in this study did not affect granule formation, physical characteristics, microbial community structure of granules and stable operation of granular sludge reactor. Reactor height/diameter ratio thus can be very flexible in the practice, which is important for the application of aerobic granule technology
379-383
Kong, Yunhua
a8b0b946-391e-4e63-af34-dfd23a21871d
Liu, Yong-Qiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Tay, Joo-Hwa
1bd3ce87-355e-460f-835b-56cb81f3a1b0
Wong, Fook-Sin
751dedaa-05ad-48a9-84ea-94701d044bff
Zhu, Jianrong
6c852b43-f8d4-4773-8a98-e0759455f7ad
5 November 2009
Kong, Yunhua
a8b0b946-391e-4e63-af34-dfd23a21871d
Liu, Yong-Qiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Tay, Joo-Hwa
1bd3ce87-355e-460f-835b-56cb81f3a1b0
Wong, Fook-Sin
751dedaa-05ad-48a9-84ea-94701d044bff
Zhu, Jianrong
6c852b43-f8d4-4773-8a98-e0759455f7ad
Kong, Yunhua, Liu, Yong-Qiang, Tay, Joo-Hwa, Wong, Fook-Sin and Zhu, Jianrong
(2009)
Aerobic granulation in sequencing batch reactors with different reactor height/diameter ratios.
Enzyme and Microbial Technology, 45 (5), .
(doi:10.1016/j.enzmictec.2009.06.014).
Abstract
Effects of reactor height/diameter ratios ranged from 24 to 4 corresponding to reactor settling velocities from 12 to 2 m h?1 on aerobic granulation were investigated. It was found that granules appeared after 1-week operation and granule volume percentages exceeded 50% after 2–3 weeks in four reactors. In addition, similar granule fraction of 94–96% was found at steady state in all four reactors. Sludge volume index (SVI), average sludge size, biomass density and granule settling velocity at steady state were around 50 ml g?1, 1800 ?m, 53 g l?1 and 40 m h?1, respectively, in four reactors. Extracellular polymeric substances (EPS) and specific oxygen uptake rate (SOUR) were around 38 mg g?1 VSS and 40 mg O2 g?1 VSS h?1, respectively. Denaturing gradient gel electrophoresis (DGGE) fingerprint of sludge in four reactors showed the same microbial population shift during the start-up period and same microbial community structure during steady-state period. These results recommended strongly that reactor height/diameter ratio or reactor setting velocity in the used range in this study did not affect granule formation, physical characteristics, microbial community structure of granules and stable operation of granular sludge reactor. Reactor height/diameter ratio thus can be very flexible in the practice, which is important for the application of aerobic granule technology
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Published date: 5 November 2009
Organisations:
Civil Maritime & Env. Eng & Sci Unit
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Local EPrints ID: 351887
URI: http://eprints.soton.ac.uk/id/eprint/351887
ISSN: 0141-0229
PURE UUID: 54d5e809-a27e-4512-921d-25a4ee19ab0b
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Date deposited: 25 Apr 2013 14:41
Last modified: 15 Mar 2024 03:47
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Author:
Yunhua Kong
Author:
Joo-Hwa Tay
Author:
Fook-Sin Wong
Author:
Jianrong Zhu
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