Zwitterionic and anionic ultrafiltration membrane modification for efficient, fouling-resistant microalgae harvesting

Authors/Creators

• Victor Okorie Mkpuma
• Mohadeseh Najafi, Edith Cowan UniversityFollow
• Javad Farahbakhsh, Edith Cowan UniversityFollow
• Masoumeh Zargar, Edith Cowan UniversityFollow
• Navid Reza Moheimani
• Houda Ennaceri

Author Identifier (ORCID)

Javad Farahbakhsh: https://orcid.org/0000-0002-5032-6493

Masoumeh Zargar: https://orcid.org/0000-0001-9811-6156

Abstract

Membrane surface modification is a promising strategy for fouling mitigation in membrane-based microalgae filtration, primarily by limiting the interactions between the membrane surface and the foulant particles. This study investigated the effectiveness of modified membranes in filtering Chlorella sp. MUR 269. First, three polyethersulfone membranes with varying pore sizes were evaluated to determine the influence of pore size on filtration performance and fouling behavior. The ultrafiltration membrane that exhibited the best performance was subsequently modified using two functional monomers: the zwitterionic [2-(methacryloyloxy)ethyl]dimethyl (3-sulfopropyl) ammonium hydroxide and the negatively charged mono-2-(methacryloyloxy)ethyl succinate (MMS). The filtration performance and fouling resistance of the modified membranes were then evaluated over a 4-h filtration period. MMS modification enhanced membrane hydrophilicity and surface electronegativity, which resulted in consistently higher permeate flux than the other membranes. However, the MMS-modified membranes exhibited high irreversible fouling (∼37%) and a relatively low flux recovery rate (48%) after 30 min of physical cleaning. In contrast, zwitterionic modification significantly enhanced surface hydration, as evidenced by a low contact angle (29°), and exhibited superior antifouling behavior within the scope of the present study, with low irreversible fouling (∼10%) and a high flux recovery rate (80%). These findings underscore the importance of membrane surface modification in reducing fouling during microalgae filtration and position zwitterions as effective antifouling agents for membrane surface enhancement. Further studies incorporating controlled grafting layer thickness are recommended to clarify how surface chemistry-driven hydration and electrostatic interactions influence microalgal fouling control, alongside with long-term operation and repeated filtration-cleaning cycles to evaluate the durability and sustained performance of the modified membranes.

Keywords

Chlorella sp., crossflow, electronegative, hydrophilic, surface modification, ultrafiltration

Document Type

Journal Article

Date of Publication

4-1-2026

Volume

85

Publication Title

Journal of Water Process Engineering

Publisher

Elsevier

School

School of Engineering

Funders

Forrest Research Foundation

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.

Comments

Mkpuma, V. O., Najafi, M., Farahbakhsh, J., Zargar, M., Moheimani, N. R., & Ennaceri, H. (2026). Zwitterionic and anionic ultrafiltration membrane modification for efficient, fouling-resistant microalgae harvesting. Journal of Water Process Engineering, 85, 109784. https://doi.org/10.1016/j.jwpe.2026.109784