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The impact of Berberine pharmaceutical wastewater on aerobic granules formation: Change of granules’ size

The impact of Berberine pharmaceutical wastewater on aerobic granules formation: Change of granules’ size
The impact of Berberine pharmaceutical wastewater on aerobic granules formation: Change of granules’ size
As important parameters in the characterization of aerobic granulation, the shape and average diameter were related to substrates. The previous studies disclosed that the morphology change in aerobic granules was the result of growth and the relatively strong hydrodynamic shear force. No further exploration of the size distribution of the aerobic granules has been conducted. To better understand the impact of toxic compounds on aerobic granules’ growth during their formation, the properties of aerobic granules were traced over 81 days in 3 sequencing batch reactors fed with acetate and berberine wastewater, especially the particle size and size distribution. The results showed that the aerobic granules were cultivated by the simulated acetate wastewater (R1), simulated berberine wastewater (R2), and effluent from an anaerobic baffled reactor (ABR) reactor which was fed with industrial berberine wastewater (R3). The reactors exhibited different COD removal efficiencies, and the MLSS and MLVSS values affected by the different substrates which were in an order of R1 > R2 > R3. However, the SVI and SOUR, which were affected by several factors, showed more complicated results. The aerobic granules had the lowest microbial activity (SOUR), while the aerobic granules in R3 had the lowest settling ability among the three kinds of granules. For the three reactors with different influent compositions, the aerobic granulation process displayed a three-stage process separately. Compared with the granules fed with berberine wastewater, the granules fed with acetate in a stable operation period showed more independence from other periods. The size distribution was affected by substrates. The aerobic granules with a range of 0.3–1.0 µm occupied 77.0%, 67.0%, and 35.7% of the volume for R1, R2, and R3, respectively. The biomass less than 0.3 µm occupied 59.1% volume in R3. The components of the substrate had a great influence on the growth of aerobic granules, not only on the diameter but also on the size distribution.
aerobic granules; particle size; distribution; berberine; wastewater treatment
2227-9717
Zeng, Ping
5434c435-d2d0-43fb-ac86-593f882f8e1c
Wang, Yan
540c725b-5924-4971-9eb7-9db164c09e57
Liu, Yongqiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Li, Juan
b9aca3b9-8f20-432b-bc84-7da07f23e3c7
Liu, Fenghua
5ad802d0-93b8-430a-ac6f-08f1f497e7db
Chang, Ming
a44ce8eb-f896-4822-a589-3284dda5f3ae
Zhang, Yizhang
5411f0ac-9a11-405b-a811-772627ae28ed
Zeng, Ping
5434c435-d2d0-43fb-ac86-593f882f8e1c
Wang, Yan
540c725b-5924-4971-9eb7-9db164c09e57
Liu, Yongqiang
75adc6f8-aa83-484e-9e87-6c8442e344fa
Li, Juan
b9aca3b9-8f20-432b-bc84-7da07f23e3c7
Liu, Fenghua
5ad802d0-93b8-430a-ac6f-08f1f497e7db
Chang, Ming
a44ce8eb-f896-4822-a589-3284dda5f3ae
Zhang, Yizhang
5411f0ac-9a11-405b-a811-772627ae28ed

Zeng, Ping, Wang, Yan, Liu, Yongqiang, Li, Juan, Liu, Fenghua, Chang, Ming and Zhang, Yizhang (2022) The impact of Berberine pharmaceutical wastewater on aerobic granules formation: Change of granules’ size. Processes, 10 (4), [792]. (doi:10.3390/pr10040792).

Record type: Article

Abstract

As important parameters in the characterization of aerobic granulation, the shape and average diameter were related to substrates. The previous studies disclosed that the morphology change in aerobic granules was the result of growth and the relatively strong hydrodynamic shear force. No further exploration of the size distribution of the aerobic granules has been conducted. To better understand the impact of toxic compounds on aerobic granules’ growth during their formation, the properties of aerobic granules were traced over 81 days in 3 sequencing batch reactors fed with acetate and berberine wastewater, especially the particle size and size distribution. The results showed that the aerobic granules were cultivated by the simulated acetate wastewater (R1), simulated berberine wastewater (R2), and effluent from an anaerobic baffled reactor (ABR) reactor which was fed with industrial berberine wastewater (R3). The reactors exhibited different COD removal efficiencies, and the MLSS and MLVSS values affected by the different substrates which were in an order of R1 > R2 > R3. However, the SVI and SOUR, which were affected by several factors, showed more complicated results. The aerobic granules had the lowest microbial activity (SOUR), while the aerobic granules in R3 had the lowest settling ability among the three kinds of granules. For the three reactors with different influent compositions, the aerobic granulation process displayed a three-stage process separately. Compared with the granules fed with berberine wastewater, the granules fed with acetate in a stable operation period showed more independence from other periods. The size distribution was affected by substrates. The aerobic granules with a range of 0.3–1.0 µm occupied 77.0%, 67.0%, and 35.7% of the volume for R1, R2, and R3, respectively. The biomass less than 0.3 µm occupied 59.1% volume in R3. The components of the substrate had a great influence on the growth of aerobic granules, not only on the diameter but also on the size distribution.

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Accepted/In Press date: 12 April 2022
e-pub ahead of print date: April 2022
Published date: April 2022
Additional Information: Funding Information: Funding: This research was funded by the Chinese Research Academy of Environmental Sciences Central Public Welfare Scientific Research Project (2016YSKY-027), the Special Fund for Basic Scientific Research of Central Public Research Institutes (2020YSKY-003), the National Key Research and Development Program (2019YFC0408602), and the National Major Scientific and Technological Projects for Water Pollution Control and Management (2017ZX07402003). Publisher Copyright: © 2022 by the authors. Licensee MDPI, Basel, Switzerland. Copyright: Copyright 2022 Elsevier B.V., All rights reserved.
Keywords: aerobic granules; particle size; distribution; berberine; wastewater treatment

Identifiers

Local EPrints ID: 456907
URI: http://eprints.soton.ac.uk/id/eprint/456907
DOI: doi:10.3390/pr10040792
ISSN: 2227-9717
PURE UUID: effd7147-d9ed-4ef6-ac64-5997b236722c
ORCID for Yongqiang Liu: ORCID iD orcid.org/0000-0001-9688-1786

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Date deposited: 17 May 2022 16:30
Last modified: 17 Mar 2024 03:32

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Contributors

Author: Ping Zeng
Author: Yan Wang
Author: Yongqiang Liu ORCID iD
Author: Juan Li
Author: Fenghua Liu
Author: Ming Chang
Author: Yizhang Zhang

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