Textile-effluent treatment using Aloe vera mucilage as a natural coagulant prior to a photo-Fenton reaction

[Display omitted] •Pre-treatment of the textile effluent was done with Aloe vera mucilage and FeCl3.•Residual Fe3+ from the effluent was used for further photo-Fenton reactions.•The association of techniques proved to be an method efficient and viable.•Treated effluents showed no relevant toxicity a...

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Published in:Journal of photochemistry and photobiology. A, Chemistry. Chemistry., 2022-08, Vol.429, p.113948, Article 113948
Main Authors: França Figueiredo, Franciele, Karoliny Formicoli de Souza Freitas, Thabata, Gonçalves Dias, Guilherme, Cesar Lopes Geraldino, Henrique, Paula Jambers Scandelai, Ana, Junkes Vilvert, Amanda, Carla Garcia, Juliana
Format: Article
Language:English
Subjects:
Biopolymer
Coagulation-flocculation
Ecotoxicity
Fenton oxidation
Wastewater
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Summary:[Display omitted] •Pre-treatment of the textile effluent was done with Aloe vera mucilage and FeCl3.•Residual Fe3+ from the effluent was used for further photo-Fenton reactions.•The association of techniques proved to be an method efficient and viable.•Treated effluents showed no relevant toxicity at three trophic levels of organisms. In this study, the mucilage of Aloe vera was used as a new auxiliary coagulant in pre-treatment using a combined system based on the photo-Fenton (PF) process for the treatment of textile effluents. Coagulation–flocculation (CF) using a combination of coagulants showed better performance in the elimination of turbidity, chemical oxygen demand (COD), dissolved organic carbon (DOC), and natural organic matter (NOM) when compared with a single inorganic coagulant. In addition, the combination of coagulants allowed a 28% reduction in the concentration of the inorganic coagulant used. To remove the dissolved and recalcitrant matter after CF, the pretreated effluent was subjected to a PF process that is efficient in the degradation and mineralization of dissolved organic compounds; this resulted in the elimination of 82.48% of COD, 80.34% of DOC, and 79.65% of NOM, as well as the formation of inorganic ions. The toxicity of the samples was evaluated base on three organisms of different trophic levels: Lactuca sativa, Artemia salina, and Eisenia fetida. The results showed that the samples treated by CF or CF/PF were non-toxic to A. salina and E. fetida. However, in the L. sativa bioassay, the root-growth parameter revealed toxicity in the effluents before and after treatment, excluding the untreated effluents with doses of 100 and 200 mL L-1 and the effluent with a dose of 100 mL L-1 treated by the CF process.
ISSN:1010-6030
1873-2666
DOI:10.1016/j.jphotochem.2022.113948