IJCRRI Journ Cur Res ReInternational Journal of Current Research and ReviewI Journ Cur Res Re2231-21960975-5241Radiance Research Academy3392 http://dx.doi.org/10.31782/IJCRR.2021.13402HealthcareFormulation of Natural Elite Dye Remover from Textile Effluent__ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; __ampersandsignnbsp; RameshSri SowmithaSKomala DeviSTamilselviKMoni Philip JacobSRagamathiSRajaseetharamaPJeyavel KarthickMKSPavithra16022021)112116This article is copyright of Popeye Publishing, 20092009This is an open-access article distributed under the terms of the Creative Commons Attribution (CC BY 4.0) Licence. You may share and adapt the material, but must give appropriate credit to the source, provide a link to the licence, and indicate if changes were made.

Introduction: The dyes used in the textile industry poses a major problem to wastewater sources and the environment. Common ways of wastewater treatment containing dyes include adsorption, sedimentation, chemical analysis, chemicoagulation, biological methods, and advanced oxidation procedures. Objective: To produce the papaya seed, banana pith and pineapple peel powder and treat textile synthetic wastewater with these natural coagulants. Methods: Papaya seed, Banana pith and Pineapple peel were dried at a particular temperature and ground into powder. Coagulation and flocculation tests were carried out using the jar test apparatus in which 500mL of raw water sample was treated with different concentration of natural coagulants. BOD and COD were determined, FTIR analysis was made to know the functional group of natural coagulants which is responsible for efficient dye removal. Results: The turbid remaining vs. coagulant dosage graph has been plotted. The treated textile wastewater sample is tested for the presence of BOD; initially, the value was 337.25mg/L with dark blue colour and after 5 days of incubation the colour reduces and brownish precipitate forms with a value of 185.43mg/L. Treated textile wastewater is tested for the presence of the chemical oxygen demand, after 2 hours of digestion, titration is carried out, which showed the change in bluish-green colour to red colour. The result indicates initially COD value as 480mg/L which is reduced to 323mg/L. Conclusion: The FTIR results showed the presence of potential functional group which is responsible for dye removal. The initial value of BOD and COD was reduced from its original value. Hence, natural coagulants play a potential role in the treatment of Dyes in textile effluent.

Papaya seed Banana pith Pineapple peel Natural coagulant Textile colouring water