Screening cost effectiveness and salinity build up control in osmotic membrane bioreactors for refinery wastewater treatment: A draw solute with lower diffusivity and ultrafiltration implementation

Screening cost effectiveness and salinity build up control in osmotic membrane bioreactors for refinery wastewater treatment: A draw solute with lower diffusivity and ultrafiltration implementation

[Display omitted] Two strategies were investigated for salinity build up prevention in osmotic membrane bioreactors (OMBR) treating a real refinery wastewater. Firstly, a solute with lower diffusivity (MgCl2, for 102 days) was used. The impact on the microbiological activity was lower, which favored...

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Bibliographic Details
Published in:Process safety and environmental protection Vol. 151; pp. 195 - 207
Main Authors: Lebron, Yuri Abner Rocha, Moreira, Victor Rezende, Moser, Priscila Barbosa, de Souza Santos, Lucilaine Valéria, Amaral, Miriam Cristina Santos
Format: Journal Article
Language:English
Published: Rugby Elsevier B.V 01-07-2021
Elsevier Science Ltd
Subjects:
Accumulation
Bioreactors
Cost effectiveness
Diffusivity
Dissolved organic carbon
Draw solution
Fluctuations
Flux
Hybrid UF-OMBR
Magnesium chloride
Membranes
OMBR
Operating costs
Osmosis
Recalcitrant compounds
Refineries
Refinery wastes
Salinity
Salinity build up
Salinity effects
Sodium chloride
Ultrafiltration
Wastewater treatment
Salinity build up
Draw solution
Hybrid UF-OMBR
OMBR
Wastewater treatment
Recalcitrant compounds
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Summary:[Display omitted] Two strategies were investigated for salinity build up prevention in osmotic membrane bioreactors (OMBR) treating a real refinery wastewater. Firstly, a solute with lower diffusivity (MgCl2, for 102 days) was used. The impact on the microbiological activity was lower, which favored the recalcitrant compounds degradation. However, without salinity relief, the mixed liquor (ML) salinity increased, impacting the forward osmosis (FO) flux (0.18 L/m2h). Secondly, an ultrafiltration (UF) membrane was submerged within the ML and the draw solution (DS) replaced to NaCl. The ML conductivity was stable along 330 days without a severe flux decay (1.07 L/m2h). Nonetheless, the reverse NaCl flux had a higher impact on the microbiological activity and the concentration of dissolved organic carbon and ammoniacal nitrogen started to increase in the UF permeate. Due to the lower permeate flux, the OMBR had a higher membrane area requirement which represented the main contributor for the total operating costs.
ISSN:0957-5820
1744-3598
DOI:10.1016/j.psep.2021.05.018