4.8 Article

Evaluation of Front-Face Fluorescence for Assessing Cyanobacteria Fouling in Ultrafiltration

Journal

ENVIRONMENTAL SCIENCE & TECHNOLOGY
Volume 57, Issue 45, Pages 17649-17658

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acs.est.3c07397

Keywords

front-face fluorescence; excitation-emissionmatrix; cyanobacteria; ultrafiltration; membrane fouling

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This study utilized FF-EEM for the nondestructive and in situ characterization of algae fouling in UF systems, as well as analyzing its mechanisms and reversibility. The results showed a linear correlation between phycocyanin fluorescence on the membrane surface and algal cell count, and a decrease in membrane fluorescence as fouling progressed. The plateau in membrane fluorescence indicated full coverage and deterioration of fouling reversibility. These findings highlight the promise of FF-EEM as a valuable tool for monitoring and evaluating cyanobacteria fouling in UF systems.
Cyanobacteria fouling in ultrafiltration (UF) drinking water treatment poses a significant threat to the stability and sustainability of the process. Both phycocyanin found in cyanobacteria and the polymer membrane exhibit strong fluorescence, which could be readily detected using front-face excitation-emission matrix (FF-EEM) spectroscopy. In this study, FF-EEM was employed for the nondestructive and in situ characterization of algae fouling evolution in UF, while also analyzing fouling mechanisms and reversibility. The results indicated that phycocyanin fluorescence on the membrane surface showed a linear correlation with the specific algal cell count on the membrane surface before reaching saturation. As fouling progressed, membrane fluorescence decreased, which was associated with the extent of the surface coverage on the membrane. The plateau in membrane fluorescence indicated full coverage, coinciding with the cake filtration mechanism, cake compression, and deterioration of fouling reversibility. These findings highlight the promise of FF-EEM as a valuable tool for monitoring and evaluating fouling of cyanobacteria in UF systems.

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