| Title | Enhanced textile wastewater treatment by a novel biofilm carrier with adsorbed nutrients |
|---|---|
| ID_Doc | 26675 |
| Authors | Mulinari, J; de Andrade, CJ; Brandao, HD; da Silva, A; de Souza, SMDGU; de Souza, AAU |
| Title | Enhanced textile wastewater treatment by a novel biofilm carrier with adsorbed nutrients |
| Year | 2020 |
| Published | |
| Abstract | This work aimed to enhance the biodegradation of synthetic textile wastewater using pyrolyzed sludge from an effluent treatment plant of a textile industry as biofilm carrier. The control carrier was compared to a carrier supplemented with nutrients (potassium, phosphorus, nitrogen, calcium, and sulfur) that were sequentially adsorbed. These nutrients are essential for microbial metabolism. First, the decolorization of the azo dye Reactive Red 141 (RR141) was tested and then, the biodegradation of synthetic textile wastewater was analyzed. The microorganisms present in each condition were identified by mass spectrometry. The supplemented carrier enhanced RR141 decolorization 3.6-fold and 1.8-fold when compared to free biomass and control carrier, respectively. The dye biodegradation followed a pseudo-second-order kinetics. The use of the supplemented carrier increased the rate constant 4.3-fold and 13.8-fold in relation to the use of control carrier and free biomass, respectively. For the synthetic textile wastewater, the supplemented carrier enhanced the decolorization 2.9-fold and 1.6-fold compared to free biomass and control carrier, respectively. The decolorization also followed pseudosecond-order kinetics, and there were increases of 8.8-fold and 3.5-fold in the rate constant with the use of the supplemented carrier in relation to free biomass and control carrier, respectively. Biofilm microorganisms were identified by mass spectrometry, which showed the presence of aerobic (Lysinibaciullus fusiformis for example) and facultative anaerobic (Escherichia coli and Kosakonia cowanii) species. The supplementation of the biofilm carrier with nutrients can be an interesting alternative for the effective treatment of more complex effluents, such as textile wastewater. |
Similar Articles
| ID | Score | Article |
|---|---|---|
15715
|
Srivastava, P; Al-Obaidi, SA; Webster, G; Weightman, AJ; Sapsford, DJ Towards passive bioremediation of dye-bearing effluents using hydrous ferric oxide wastes: Mechanisms, products and microbiology(2022) | |
| 14138
|
Yilmaz, T; Demir, EK; Asik, G; Basaran, ST; Cokgor, E; Sözen, S; Sahinkaya, E Performance of a high-rate membrane bioreactor for energy-efficient treatment of textile wastewater(2024) | |
| 12323
|
Kallawar, GA; Bhanvase, BA A review on existing and emerging approaches for textile wastewater treatments: challenges and future perspectives(2024)Environmental Science And Pollution Research, 31.0, 2 | |
| 9442
|
Horciu, LI; Zaharia, C; Blaga, AC; Rusu, L; Suteu, D Brilliant Red HE-3B Dye Biosorption by Immobilized Residual Consortium Bacillus sp. Biomass: Fixed-Bed Column Studies(2021)Applied Sciences-Basel, 11.0, 10 | |
| 17225
|
Lin, JY; Ye, WY; Xie, M; Seo, DH; Luo, JQ; Wan, YH; van der Bruggen, B Environmental impacts and remediation of dye-containing wastewater(2023)Nature Reviews Earth & Environment, 4, 11 | |
| 23977
|
Hart, R; In-na, P; Kapralov, MV; Lee, JGM; Caldwell, GS Textile-based cyanobacteria biocomposites for potential environmental remediation applications(2021)Journal Of Applied Phycology, 33, 3 | |
| 28635
|
Kar, S; Santra, B; Kumar, S; Ghosh, S; Majumdar, S Sustainable conversion of textile industry cotton waste into P-dopped biochar for removal of dyes from textile effluent and valorisation of spent biochar into soil conditioner towards circular economy(2022) | |
| 7565
|
Marazzi, F; Fornaroli, R; Clagnan, E; Brusetti, L; Ficara, E; Bellucci, M; Mezzanotte, V Wastewater from textile digital printing as a substrate for microalgal growth and valorization(2023) | |
| 8684
|
Yilmaz, FGT; Tekin, G; Ersöz, G; Atalay, S Reclamation of real textile wastewater by sequential advanced oxidation and adsorption processes using corn-cob based materials(2023) | |
| 8820
|
Lago, A; Rocha, V; Barros, O; Silva, B; Tavares, T Bacterial biofilm attachment to sustainable carriers as a clean-up strategy for wastewater treatment: A review(2024) |