Use of the osmotic membrane bioreactor for the management of tannery wastewater using absorption liquid waste as draw solution

Use of the osmotic membrane bioreactor for the management of tannery wastewater using absorption liquid waste as draw solution

•COD removal efficiencies were around 80% until the 50-th day of operation.•The DS used offered enough driving force for the OMBR operation.•Salinity build-up in the bioreactor increased the SMP but did not affect eEPS.•Nitrification did not occur at a high extent.•Denitrification occurred and was p...

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Veröffentlicht in:Process safety and environmental protection 2019-11, Vol.131, p.292-299
Hauptverfasser: Luján-Facundo, M.J., Mendoza-Roca, J.A., Soler-Cabezas, J.L., Bes-Piá, A., Vincent-Vela, M.C., Pastor-Alcañiz, L.
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Sprache:eng
Schlagworte:
Absorption
Accumulation
Ammonia
Ammonium
Ammonium sulfate
Bioaccumulation
Bioreactors
Chemical oxygen demand
Fluctuations
Flux
Forward osmosis
Fouling
Liquid wastes
Membrane processes
Membranes
Organic chemistry
Osmosis
Osmotic membrane bioreactor
Reactors
Reverse salt flux
Tannery wastewater
Textile industry wastewaters
Waste management
Wastewater management
Wastewater treatment
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container_end_page 299
container_issue
container_start_page 292
container_title Process safety and environmental protection
container_volume 131
creator Luján-Facundo, M.J.
Mendoza-Roca, J.A.
Soler-Cabezas, J.L.
Bes-Piá, A.
Vincent-Vela, M.C.
Pastor-Alcañiz, L.
description •COD removal efficiencies were around 80% until the 50-th day of operation.•The DS used offered enough driving force for the OMBR operation.•Salinity build-up in the bioreactor increased the SMP but did not affect eEPS.•Nitrification did not occur at a high extent.•Denitrification occurred and was proved by the absence of nitrites and nitrates. The performance of an osmotic membrane bioreactor (OMBR) for treating tannery wastewater at laboratory scale has been evaluated in this study. The forward osmosis (FO) membrane tested was CTA-NW from HTI. As draw solution, actual waste water from an absorption column for ammonia separation, which consists mainly of ammonium sulphate was used. The study was focused on the salt reverse flux during the OMBR operation, membrane water flux, biomass characteristics and membrane fouling. Regarding membrane water flux change with the time, the measured values diminished from 3.44 to 0.72 LMH due to the membrane fouling and the salt accumulation in the biological reactor. The stable mixed liquor conductivity value at the end of the experiment was 29.8mS·cm−1. The chemical oxygen demand (COD) removal efficiencies were maintained near 80% until the first 50 days of operation, considering the soluble COD in the reactor instead of the COD in the membrane permeate for the performance calculation. Thence, COD removal efficiencies decreased progressively due to the accumulation of non degradable COD coming from the tannery wastewater. Concerning to the membrane fouling, FESEM/EDX analysis corroborated that organic fouling was predominant on the membrane active layer.
doi_str_mv 10.1016/j.psep.2019.09.024
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The performance of an osmotic membrane bioreactor (OMBR) for treating tannery wastewater at laboratory scale has been evaluated in this study. The forward osmosis (FO) membrane tested was CTA-NW from HTI. As draw solution, actual waste water from an absorption column for ammonia separation, which consists mainly of ammonium sulphate was used. The study was focused on the salt reverse flux during the OMBR operation, membrane water flux, biomass characteristics and membrane fouling. Regarding membrane water flux change with the time, the measured values diminished from 3.44 to 0.72 LMH due to the membrane fouling and the salt accumulation in the biological reactor. The stable mixed liquor conductivity value at the end of the experiment was 29.8mS·cm−1. The chemical oxygen demand (COD) removal efficiencies were maintained near 80% until the first 50 days of operation, considering the soluble COD in the reactor instead of the COD in the membrane permeate for the performance calculation. 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ispartof Process safety and environmental protection, 2019-11, Vol.131, p.292-299
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source Elsevier ScienceDirect Journals
subjects Absorption
Accumulation
Ammonia
Ammonium
Ammonium sulfate
Bioaccumulation
Bioreactors
Chemical oxygen demand
Fluctuations
Flux
Forward osmosis
Fouling
Liquid wastes
Membrane processes
Membranes
Organic chemistry
Osmosis
Osmotic membrane bioreactor
Reactors
Reverse salt flux
Tannery wastewater
Textile industry wastewaters
Waste management
Wastewater management
Wastewater treatment
title Use of the osmotic membrane bioreactor for the management of tannery wastewater using absorption liquid waste as draw solution
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