Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal

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Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal Publisher

Dehnavi HA^{1, 2} ; Fatehizadeh A^{1, 3} ; Amin MM^{1, 3} ; Attar HM^{1, 3} ; Ebrahimpour K^{1, 3} ; Bina B^{1, 3}

Show Affiliations

1. Department of Environmental Health Engineering, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran
2. Student Research Committee, School of Health, Isfahan University of Medical Sciences, Isfahan, Iran
3. Environment Research Center, Research Institute for Primordial Prevention of Non-Communicable Disease, Isfahan University of Medical Sciences, Isfahan, Iran

Source: Environmental Health Engineering and Management Published:2023

Abstract

Background: Based on the previous studies, antibiotics can have affected biological properties of biomass and fouling properties of mixed liquor in aeration tank. The present study was conducted to explore the fouling mechanisms of membrane bioreactor (MBR) system during the treatment of wastewater containing erythromycin (ERY) antibiotic under several mixed liquor suspended solids (MLSS) concentrations. Methods: A lab-scale two-chamber MBR system equipped with a polypropylene hollow fiber submerged membrane was fed with synthetic wastewater containing different initial concentrations of ERY. MBR system was operated under the constant flux mode and different MLSS concentrations (5.0-13.0 g/L) and the obtained results were evaluated using different individual and combined fouling models. Results: The variation of MLSS concentrations had not significantly affected the kind of best-fitted model. From the individual models, the standard model indicated the best performance for permeate prediction under different MLSS concentrations (R2 > 0.997). For all studied MLSS concentrations, adj the R2 values of combined fouling models were higher than 0.986 and demonstrated good fitness adj performance of combined models compared to individual models. Overall, the cake-intermediate model showed the lowest fitness, and cake-complete and complete-standard models were the most successful models in filtrated volume prediction in comparison with other combined fouling models. Conclusion: This study indicated that mechanistic models are suitable for fouling prediction of MBR systems in ERY removal and under a wide range of MLSS concentrations and provide valuable information on fouling mechanisms of full-scale MBR systems. © 2023 The Author(s). Published by Kerman University of Medical Sciences.

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Style	Citing Format
MLA	Dehnavi HA, et al.. "Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal." Environmental Health Engineering and Management, vol. 10, no. 2, 2023, pp. 179-189.
APA	Dehnavi HA, Fatehizadeh A, Amin MM, Attar HM, Ebrahimpour K, Bina B (2023). Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal. Environmental Health Engineering and Management, 10(2), 179-189.
Chicago	Dehnavi HA, Fatehizadeh A, Amin MM, Attar HM, Ebrahimpour K, Bina B. "Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal." Environmental Health Engineering and Management 10, no. 2 (2023): 179-189.
Harvard	Dehnavi HA et al. (2023) 'Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal', Environmental Health Engineering and Management, 10(2), pp. 179-189.
Vancouver	Dehnavi HA, Fatehizadeh A, Amin MM, Attar HM, Ebrahimpour K, Bina B. Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal. Environmental Health Engineering and Management. 2023;10(2):179-189.
BibTex	@article{ author = {Dehnavi HA and Fatehizadeh A and Amin MM and Attar HM and Ebrahimpour K and Bina B}, title = {Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal}, journal = {Environmental Health Engineering and Management}, volume = {10}, number = {2}, pages = {179-189}, year = {2023} }
RIS	TY - JOUR AU - Dehnavi HA AU - Fatehizadeh A AU - Amin MM AU - Attar HM AU - Ebrahimpour K AU - Bina B TI - Membrane Fouling Mechanism of Submerged Membrane Bioreactor During Erythromycin Removal JO - Environmental Health Engineering and Management VL - 10 IS - 2 SP - 179 EP - 189 PY - 2023 ER -

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