Controlling factors and involved mechanisms on forming alginate like extracellular polymers in flocculent sludge

Journal Article (2022)
Author(s)

Ji Li (Beijing University of Civil Engineering & Architecture)

Xiaodi Hao (Beijing University of Civil Engineering & Architecture)

Wei Gan (Beijing University of Civil Engineering & Architecture)

Mark M.C. van Loosdrecht (TU Delft - BT/Environmental Biotechnology, Beijing University of Civil Engineering & Architecture)

Yuanyuan Wu (Beijing University of Civil Engineering & Architecture)

Research Group
BT/Environmental Biotechnology
Copyright
© 2022 Ji Li, Xiaodi Hao, Wei Gan, Mark C.M. van Loosdrecht, Yuanyuan Wu
DOI related publication
https://doi.org/10.1016/j.cej.2022.135792
More Info
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Publication Year
2022
Language
English
Copyright
© 2022 Ji Li, Xiaodi Hao, Wei Gan, Mark C.M. van Loosdrecht, Yuanyuan Wu
Research Group
BT/Environmental Biotechnology
Volume number
439
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Abstract

Alginate like extracellular polymers (ALE) recovered from excess sludge have been evaluated as an eco-friendly, cost effective and sustainable alternative to highly valued materials. However, the ALE extraction from flocculent sludge ranges normally from 90 to 190 mg/g VSS, which is only equivalent to the lowest edge of the ALE production from aerobic granular sludge (AGS). But flocculent sludge is much higher in production than AGS and thus a further investigation was expected on key factors and associated mechanisms controlling ALE formation of flocculent sludge. The investigation was conducted by lab-scale sequencing batch bioreactors. The experiments revealed that flocculent sludge with starch used as an influent substrate contained the highest ALE production (220.3 ± 8.0 mg/g VSS). Low temperature was favorable to enriching ALE, up to 303.3 ± 21.5 mg/g VSS at 12 °C. Moreover, ALE reached up to 137.8 ± 13.2 mg/g VSS at C:N = 5:1 and slightly declined with increased or decreased the C/N ratio. The specific ALE yield was 63.7 mg ALE/(g BOD5) at a low organic load, which was twice as high as that with high organic loads. However, SRT had a minor effect on ALE formation. Obviously, such scenarios as starch-rich and low temperature could promote the ALE production. Furthermore, the characteristic analysis including alginate equivalent, different fractions and hydrogel forming property among different ALE, confirmed that the ALE extracted from flocculent sludge had a potential in substituting for commercial alginates. However, different working conditions would exert a significant influence on the composition and chemical properties of ALE, which implies that the controlling some parameters could be an approach to directionally cultivating ALE for their unique structures and potential applications.

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