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Investigation on nitrogen removal performance of an enhanced post-anoxic membrane bioreactor using disintegrated sludge as a carbon source: An experimental study

In this study, a Post-Anoxic Membrane Bioreactor (PA-MBR) has been proposed to enhance nitrogen removal from real domestic wastewater. The system comprised an aeration tank followed by an anoxic chamber in which a membrane module was immersed. For effective proliferation of denitrifiers, acetate in...

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Published in:	Journal of environmental chemical engineering 2019-12, Vol.7 (6), p.103445, Article 103445
Main Authors:	Fathali, Davoud, Rashidi Mehrabadi, Abdollah, Mirabi, Maryam, Alimohammadi, Mahmood
Format:	Article
Language:	English
Subjects:	Disintegrated sludge External carbon source Membrane fouling Post-denitrification Submerged anoxic membrane bioreactor
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cited_by	cdi_FETCH-LOGICAL-c300t-b7583509949d5685d10b1123dac8fb6b763605d4c88064dae0450576e06db55b3
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creator	Fathali, Davoud Rashidi Mehrabadi, Abdollah Mirabi, Maryam Alimohammadi, Mahmood
description	In this study, a Post-Anoxic Membrane Bioreactor (PA-MBR) has been proposed to enhance nitrogen removal from real domestic wastewater. The system comprised an aeration tank followed by an anoxic chamber in which a membrane module was immersed. For effective proliferation of denitrifiers, acetate in the form of vinegar and later the disintegrated sludge through ultra-sonication were used as the carbon source for denitrification. The main goals of this study were enhancing the biological nitrogen and COD removal and investigating the influential aspects of using disintegrated sludge as a readily biodegradable COD in the PA-MBR system. The fouling behavior of the membrane was also studied as a consequent drawback of membrane application in the anoxic environment, through monitoring the trends of Transmembrane Pressure (TMP) increase over time along with the Scanning Electron Microscopy (SEM) studies. The results showed that the system in its steady-state conditions was able to remove 93.24% and 94.57% of COD and TN contents, respectively. The observed COD, TN, NO3−-N, TSS and turbidity contents of the effluent were equal to 28 ± 4.85 mg/L, 1.69 ± 0.33 mg/L-N, 1.52 ± 0.29 mg/L-N,
doi_str_mv	10.1016/j.jece.2019.103445
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subjects	Disintegrated sludge External carbon source Membrane fouling Post-denitrification Submerged anoxic membrane bioreactor
title	Investigation on nitrogen removal performance of an enhanced post-anoxic membrane bioreactor using disintegrated sludge as a carbon source: An experimental study
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