Journal
JOURNAL OF CLEANER PRODUCTION
Volume 370, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.jclepro.2022.133513
Keywords
Green algal removal; Scenedesmus quadricauda; Doped magnetite; Layered double hydroxide; Antibacterial activity
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Funding
- French Embassy in Iran
- project I-Site CAP 20-25
- College de France
- PAI (Pack Ambition Recherche) SOLDE of the Region Auvergne Rhone Alpes
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In this study, the Fe2.5Co0.3Zn0.2O4/CuCr-LDH composite was used in a photo-Fenton-like process to remove green algal cells. The photo-Fenton-like process showed a synergistic effect in deactivating the algal cells. By optimizing the parameters, the maximum removal efficiency was achieved, and the destruction of the algal cells was confirmed through microscopic and SEM images as well as chlorophyll content analysis.
In the present work, the photo-Fenton-like process based on the use of the Fe2.5Co0.3Zn0.2O4/CuCr-LDH com-posite was applied for the removal of green algal cells. First, the biological activity of the composite was proved with the antibacterial tests against the S. aureus; thereafter, it was used for the removal of Scenedesmus quad-ricauda algal cells under the photo-Fenton-like process. Interestingly, compared with the individual processes, the photo-Fenton-like process displayed a synergistic effect in the deactivation of green algal cells. The effect of various parameters such as the initial concentration of the algal cells, concentration of the hydrogen peroxide (HP), and the solution pH on the total algal. The maximuml was assessed. Maximum algal removal efficiency was obtained in the presence of the algal cell concentration of 3.5 x 109 cells mL-1, 0.1 g L-1 composite, and HP concentration of 10 mM. Furthermore, the microscopic and SEM images of the algal cells before and after the photo-Fenton-like process proved their appropriate destruction. The reduction of the chlorophyll content after 60 and 120 min of the process was observed revealing the destruction of the algal cell walls. Finally, the disinte-gration of the macromolecules in the algal cell walls was proved by the GC-MS technique.
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