Design of tropinium-functionalized anion exchange membranes for acid recovery via diffusion dialysis process

Diffusion dialysis (DD) process utilizing anion exchange membranes (AEMs) is an environmentally-friendly and energy-efficient technology. From acidic wastewater, DD is needed for acid recovery. This research reports the development of a series of dense tropinium-functionalized AEMs via solution cast...

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Bibliographic Details
Published in:Environmental research 2023-07, Vol.229, p.115932-115932, Article 115932
Main Authors: Khan, Muhammad Imran, Shanableh, Abdallah, Manzoor, Suryyia, Fernandez, Javier, Osman, Sameh M., Luque, Rafael
Format: Article
Language:English
Subjects:
AEMs
Anions
BPPO
Dialysis - methods
Diffusion
Diffusion dialysis
Tropine
Wastewater
Water uptake
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Summary:Diffusion dialysis (DD) process utilizing anion exchange membranes (AEMs) is an environmentally-friendly and energy-efficient technology. From acidic wastewater, DD is needed for acid recovery. This research reports the development of a series of dense tropinium-functionalized AEMs via solution casting method. Fourier Infrared transform (FTIR) spectroscopy verified the successful preparation of AEMs. The developed AEMs exhibited a dense morphology, featuring 0.98–2.42 mmol/g of ion exchange capacity (IEC), 30–81% of water uptake (WR) and 7–32% of linear swelling ratio (LSR). They displayed exceptional mechanical, thermal and chemical stability and were employed for acid waste treatment from HCl/FeCl2 mixtures via DD process. AEMs possessed 20 to 59 (10−3 m/h) and 166 to 362 of acid diffusion dialysis coefficient (UH+) and separation factor (S) respectively at 25 °C. Compared to DF-120 commercial membrane (UH+ = 0.004 m/h, S = 24.3), their DD efficiency was improved under identical experimental conditions. •The tropinium-functionalized anion exchange membranes were developed.•These membrane exhibited excellent stability crucial for diffusion dialysis process.•The developed membranes showed higher acid recovery via diffusion dialysis.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2023.115932