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Cultivation of aerobic granules in a bubble column and an airlift reactor with divided draft tubes at low aeration rate

Cultivation of aerobic granules in a bubble column and an airlift reactor with divided draft tubes at low aeration rate
Cultivation of aerobic granules in a bubble column and an airlift reactor with divided draft tubes at low aeration rate
A bubble column and a novel airlift reactor with divided draft tubes were used for the cultivation of aerobic granules at the superficial air velocity of 1.2 cm s?1. It was found that profiles of biomass concentration, average particle size and SVI of biomass showed the same changing trends during the first 40-day operation in the bubble column and the airlift reactor. After 60-day operation, the biomass concentration, average particle size, and SVI of biomass reached 4.5 g l?1, 1300 ?m and 30 ml g?1, respectively, and then maintained at these values during the next 3-month operation in airlift reactor. However, morphology of granular sludge in bubble column changed at day of 50 and then disintegrated into bioflocs at day of 67 when biomass concentration reached to 8.0 g l?1, which led to the great increase of SVI of biomass and the wash-out of lots of biomass from reactor. Clear and regular granules were seen again at day of 75 and granules gradually grew to bigger sizes. But the system deterioration happened again when biomass in bubble column increased to about 8.0 g l?1. It was found that DO concentration in feast period was about 35–40% with biomass concentration of 8.0 g l?1 in bubble column while DO concentration was above 60% with biomass concentration of 4.5 g l?1 in airlift reactor. Thus, it was thought that lower oxygen concentration due to higher biomass concentration was mainly the reason of unstable operation of aerobic granules in bubble column at superficial air velocity of 1.2 cm s?1.
aerobic granules, bubble column, airlift reactor, aeration rate, stability, DO concentration
1369-703X
1-7
Liu, Yong-Qiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Tay, Joo-Hwa
1bd3ce87-355e-460f-835b-56cb81f3a1b0
Liu, Yong-Qiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Tay, Joo-Hwa
1bd3ce87-355e-460f-835b-56cb81f3a1b0

Liu, Yong-Qiang and Tay, Joo-Hwa (2007) Cultivation of aerobic granules in a bubble column and an airlift reactor with divided draft tubes at low aeration rate. Biochemical Engineering Journal, 34 (1), 1-7. (doi:10.1016/j.bej.2006.11.009).

Record type: Article

Abstract

A bubble column and a novel airlift reactor with divided draft tubes were used for the cultivation of aerobic granules at the superficial air velocity of 1.2 cm s?1. It was found that profiles of biomass concentration, average particle size and SVI of biomass showed the same changing trends during the first 40-day operation in the bubble column and the airlift reactor. After 60-day operation, the biomass concentration, average particle size, and SVI of biomass reached 4.5 g l?1, 1300 ?m and 30 ml g?1, respectively, and then maintained at these values during the next 3-month operation in airlift reactor. However, morphology of granular sludge in bubble column changed at day of 50 and then disintegrated into bioflocs at day of 67 when biomass concentration reached to 8.0 g l?1, which led to the great increase of SVI of biomass and the wash-out of lots of biomass from reactor. Clear and regular granules were seen again at day of 75 and granules gradually grew to bigger sizes. But the system deterioration happened again when biomass in bubble column increased to about 8.0 g l?1. It was found that DO concentration in feast period was about 35–40% with biomass concentration of 8.0 g l?1 in bubble column while DO concentration was above 60% with biomass concentration of 4.5 g l?1 in airlift reactor. Thus, it was thought that lower oxygen concentration due to higher biomass concentration was mainly the reason of unstable operation of aerobic granules in bubble column at superficial air velocity of 1.2 cm s?1.

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More information

Published date: April 2007
Keywords: aerobic granules, bubble column, airlift reactor, aeration rate, stability, DO concentration
Organisations: Water & Environmental Engineering Group

Identifiers

Local EPrints ID: 352831
URI: http://eprints.soton.ac.uk/id/eprint/352831
ISSN: 1369-703X
PURE UUID: ad5877bc-477b-4971-9d61-2b83f3a7267e
ORCID for Yong-Qiang Liu: ORCID iD orcid.org/0000-0001-9688-1786

Catalogue record

Date deposited: 17 Jun 2013 14:04
Last modified: 15 Mar 2024 03:47

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Contributors

Author: Yong-Qiang Liu ORCID iD
Author: Joo-Hwa Tay

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