Digested sewage treatment using membrane-based process at different hydraulic retention times

Da wen Gao; Yu Tao; Rui An

doi:10.1016/j.desal.2011.11.020

Digested sewage treatment using membrane-based process at different hydraulic retention times

Da wen Gao^*
, Yu Tao
, Rui An

^*Corresponding author for this work

School of Ecology and Environment

Research output: Contribution to journal › Article › peer-review

31 Scopus citations

Abstract

As one of the largest wastewater sources, domestic sewage needs particular attention. This study focuses on how hydraulic retention time (HRT) affects a membrane-based process treating digested sewage. A laboratory-scale combined system, including an anoxic tank (AT) and an aerobic membrane bioreactor (MBR) was operated under decreasing HRTs (8. h, 6. h, 4. h and 2.5. h) for 218. days. HRT variation had a very limited effect on carbon removal but enhanced nitrogen (ammonium and total nitrogen) removal capacity. The biomass concentrations increased by five times until the end of HRT 2.5. h. The 16S rDNA fingerprinting analyses indicated that the microbial diversity decreased and the species belonging to the genera of Nitrospira and Variovorax became to dominate at short HRTs. The filtration resistance at HRT 2.5. h was almost three times higher than the one at HRT 8. h; also, the fouling rate was faster at short HRTs.

Original language	English
Pages (from-to)	187-192
Number of pages	6
Journal	Desalination
Volume	286
DOIs	https://doi.org/10.1016/j.desal.2011.11.020
State	Published - 1 Feb 2012

Keywords

Domestic sewage
Hydraulic retention time (HRT)
Membrane bioreactor (MBR)
Membrane fouling
Microbial community

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10.1016/j.desal.2011.11.020

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title = "Digested sewage treatment using membrane-based process at different hydraulic retention times",

abstract = "As one of the largest wastewater sources, domestic sewage needs particular attention. This study focuses on how hydraulic retention time (HRT) affects a membrane-based process treating digested sewage. A laboratory-scale combined system, including an anoxic tank (AT) and an aerobic membrane bioreactor (MBR) was operated under decreasing HRTs (8. h, 6. h, 4. h and 2.5. h) for 218. days. HRT variation had a very limited effect on carbon removal but enhanced nitrogen (ammonium and total nitrogen) removal capacity. The biomass concentrations increased by five times until the end of HRT 2.5. h. The 16S rDNA fingerprinting analyses indicated that the microbial diversity decreased and the species belonging to the genera of Nitrospira and Variovorax became to dominate at short HRTs. The filtration resistance at HRT 2.5. h was almost three times higher than the one at HRT 8. h; also, the fouling rate was faster at short HRTs.",

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AU - Gao, Da wen

AU - Tao, Yu

AU - An, Rui

PY - 2012/2/1

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N2 - As one of the largest wastewater sources, domestic sewage needs particular attention. This study focuses on how hydraulic retention time (HRT) affects a membrane-based process treating digested sewage. A laboratory-scale combined system, including an anoxic tank (AT) and an aerobic membrane bioreactor (MBR) was operated under decreasing HRTs (8. h, 6. h, 4. h and 2.5. h) for 218. days. HRT variation had a very limited effect on carbon removal but enhanced nitrogen (ammonium and total nitrogen) removal capacity. The biomass concentrations increased by five times until the end of HRT 2.5. h. The 16S rDNA fingerprinting analyses indicated that the microbial diversity decreased and the species belonging to the genera of Nitrospira and Variovorax became to dominate at short HRTs. The filtration resistance at HRT 2.5. h was almost three times higher than the one at HRT 8. h; also, the fouling rate was faster at short HRTs.

AB - As one of the largest wastewater sources, domestic sewage needs particular attention. This study focuses on how hydraulic retention time (HRT) affects a membrane-based process treating digested sewage. A laboratory-scale combined system, including an anoxic tank (AT) and an aerobic membrane bioreactor (MBR) was operated under decreasing HRTs (8. h, 6. h, 4. h and 2.5. h) for 218. days. HRT variation had a very limited effect on carbon removal but enhanced nitrogen (ammonium and total nitrogen) removal capacity. The biomass concentrations increased by five times until the end of HRT 2.5. h. The 16S rDNA fingerprinting analyses indicated that the microbial diversity decreased and the species belonging to the genera of Nitrospira and Variovorax became to dominate at short HRTs. The filtration resistance at HRT 2.5. h was almost three times higher than the one at HRT 8. h; also, the fouling rate was faster at short HRTs.

KW - Domestic sewage

KW - Hydraulic retention time (HRT)

KW - Membrane bioreactor (MBR)

KW - Membrane fouling

KW - Microbial community

UR - https://www.scopus.com/pages/publications/84856027714

U2 - 10.1016/j.desal.2011.11.020

DO - 10.1016/j.desal.2011.11.020

M3 - 文章

AN - SCOPUS:84856027714

SN - 0011-9164

VL - 286

SP - 187

EP - 192

JO - Desalination

JF - Desalination

ER -

Digested sewage treatment using membrane-based process at different hydraulic retention times

Abstract

Keywords

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