Sustainable Textile Wastewater Treatment Using Biodegradable Chitosan for High-Efficiency Dye Removal

Elhady, sarah; Bassyouni, Mohamed; Elzahar, Medhat H; Saleh, Mamdouh Y.; Elshikhiby, mohamed Z

doi:10.21608/ejchem.2024.298212.9886

	Sustainable Textile Wastewater Treatment Using Biodegradable Chitosan for High-Efficiency Dye Removal
Egyptian Journal of Chemistry
Volume 67, Issue 13, December 2024, Page 2033-2043 PDF (1.06 MB)
Document Type: Original Article
DOI: 10.21608/ejchem.2024.298212.9886
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Authors
sarah Elhady¹; Mohamed Bassyouni ²; Medhat H Elzahar ³; Mamdouh Y. Saleh ⁴; mohamed Z Elshikhiby⁵
¹Sanitary and Environmental Engineering, Department of Civil Engineering, the high Institute of Engineering and Technology in New Damietta, Egypt
²- Department of Chemical Engineering, Faculty of Engineering, Port Said University, Port Said, 42526, Egypt - Center of Excellence for Membrane Testing and Characterization (CEMTC), Port Said University,
³Port Said UniversiSanitary and Environmental Engineering, Department of Civil Engineering, the high Institute of Engineering and Technology in New Damietta, Egyptty , 2526 Port Said
⁴Sanitary and Environmental Engineering, Department of Civil Engineering, Faculty of Engineering, Port Said University, Port said, Egypt.
⁵Port Said University , Sanitary and Environmental Engineering, Department of Civil Engineering, the high Institute of Engineering and Technology in New Damietta, Egypt2526 Port Said
Abstract
This study addressed a critical environmental issue by addressing the treatment of textile wastewater using chitosan, an eco-friendly bio-adsorbent. This approach aligns with global efforts to reduce pollution and promote sustainability in industrial processes. The non-biodegradable Congo Red (CR) dye, widely used in textile production, poses carcinogenic risks due to its potential to generate benzidine through complex reactions. Thus, the effective treatment of industrial effluent containing CR dye is crucial. A series of batch experiments were conducted to investigate the effects of adsorbent dose, contact time, initial dye concentration, and pH on the adsorption process. The study employed a variety of scientific techniques to characterize chitosan and evaluate its efficacy, including Scanning Electron Microscopy (SEM), Fourier-Transform Infrared Spectroscopy (FTIR), zeta potential analysis, X-Ray Diffraction (XRD), and Brunauer-Emmett-Teller (BET) surface area analysis. These techniques provided a comprehensive understanding of the adsorption mechanisms. The experiments revealed a maximum removal efficiency of 97.6% at an initial dye concentration of 40 mg/l, a chitosan dose of 2 g/l, an optimized contact time of 120 minutes, and a pH of 7. The characterization of chitosan confirmed its suitability for adsorption. The study was scaled up to practical application in a pilot plant for textile wastewater treatment, demonstrating substantial removal efficiencies for color, COD, BOD5, and TDS, with average removal rates of 87.5%, 86.68%, 70%, and 81.2%, respectively. Furthermore, the research explored both the theoretical and practical aspects of using chitosan, demonstrating its viability as a wastewater treatment solution. By investigating an eco-friendly approach to wastewater treatment, this study made a significant contribution to the field.
Keywords
Chitosan; Textile wastewater; Adsorption; Chemical oxygen demand


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