A high-flux P84 polyimide mixed matrix membranes incorporated with cadmium-based metal organic frameworks for enhanced simultaneous dyes removal: Response surface methodology

A high-flux P84 polyimide mixed matrix membranes incorporated with cadmium-based metal organic frameworks for enhanced simultaneous dyes removal: Response surface methodology

The water sources contaminated by toxic dyes would pose a serious problem for public health. In view of this, the development of a simple yet effective method for removing dyes from industrial effluent has attracted interest from researchers. In the present work, flat sheet mixed matrix membranes (M...

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Veröffentlicht in:Environmental research 2020-04, Vol.183, p.109278-109278, Article 109278
Hauptverfasser: Baneshi, Mohammad Mehdi, Ghaedi, Abdol Mohammad, Vafaei, Azam, Emadzadeh, Daryoush, Lau, Woei Jye, Marioryad, Hossein, Jamshidi, Arsalan
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Dye
Metal organic framework
Mixed matrix membrane
P84 polyimide
RSM
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container_end_page 109278
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container_start_page 109278
container_title Environmental research
container_volume 183
creator Baneshi, Mohammad Mehdi
Ghaedi, Abdol Mohammad
Vafaei, Azam
Emadzadeh, Daryoush
Lau, Woei Jye
Marioryad, Hossein
Jamshidi, Arsalan
description The water sources contaminated by toxic dyes would pose a serious problem for public health. In view of this, the development of a simple yet effective method for removing dyes from industrial effluent has attracted interest from researchers. In the present work, flat sheet mixed matrix membranes (MMMs) with different physiochemical properties were fabricated by blending P84 polyimide with different concentrations of cadmium-based metal organic frameworks (MOF-2(Cd)). The resultant membranes were then used for simultaneous removal of eosin y (EY), sunset yellow (SY) and methylene blue (MB) under various process conditions. The findings indicated that the membranes could achieve high water permeability (117.8–171.4 L/m2.h.bar) and promising rejection for simultaneous dyes removal, recording value of 99.9%, 81.2% and 68.4% for MB, EY and SY, respectively. When 0.2 wt% MOF-2(Cd) was incorporated into the membrane matrix, the membrane separation efficiency was improved by 110.2% and 213.3% for EY and SY removal, respectively when compared with the pristine membrane. In addition, the optimization and modeling of membrane permeate flux and dye rejection was explored using response surface methodology. The actual and model results are in good agreement with R2 of at least 0.9983 for dye rejection and permeate flux. The high flux of the developed MMMs coupled with effective separation of dyes suggests a promising prospect of using P84 polyimide MMMs incorporated with MOF-2(Cd) for water purification. •Novel PI-based MMM was developed through MOF-2(Cd) incorporation.•Efficient dye removal could be achieved by novel MMM.•RSM based on CCD was employed to optimize operating parameters.
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subjects Dye
Metal organic framework
Mixed matrix membrane
P84 polyimide
RSM
title A high-flux P84 polyimide mixed matrix membranes incorporated with cadmium-based metal organic frameworks for enhanced simultaneous dyes removal: Response surface methodology
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