Investigation of Congored dye removal from industrial waste water using adsorption method
Subject Areas : Water and wastewater technologyMohadeseh Tavakoli 1 , niloofar Abedinzade 2
1 -
2 - عضو هیات علمی
Keywords:
Abstract :
These days, the removal of various dyes from industrial wastewater has become an important concern. Synthetic dyes used in industries such as textiles are complex, toxic and mutant organic materials. Congored is also an acidic dye that is considered a high- risk source of contamination and threatens the lives of humans and other living organisms. Different methods, such as electrochemical, physical and biological processes, are used to remove organic pigment from aqueous samples. Adsorption is one of the most effective modern methods of industrial wastewater treatment, which is a relatively simple and inexpensive process that produces non- toxic and low- risk products. The purpose of this study is removing the Congored dye from aqueous solutions and reviewing the accomplished researches for remove it.
الماسی فر، د، جلالی، م، مطالعه برهمکنش رنگدانه های آنیونی با سیستم مزوپر: بر جذب و کاربرد، نشریه پژوهش-های شیمی کاربردی، 1388، سال چهارم، شماره 13.
خرم آبادی، ش، درویشی، ق، چشمه سلطانی، ر، جرقی، س، جذب سطحی کادمیم توسط لجن مازاد فرآیند لجن فعال فاضلاب شهری، فصل نامه علمی پژوهشی آب و فاضلاب، 1388، شماره اول.
Gupta, V. K, Suhas, Journal of Enviromental Management. 2009, 90, 2323- 2342.
Rengaraj, S, Moona, S. H, Sivabalan, R, Arabindoo, B, Murugesan, V. Removal of phenol from aqueous solution and resin manufacturing industry waste¬water using an agricultural waste: rubber seed coat, journal of Hazardous. 2002, 89, 185- 196.
Nurmi, J. T, Tratnyek, P. G, Sarathy, V, Baer, D. R, Amonette, J. E, Pecher, K, Wang, C, linehan, J. C, Matson, D. W, Penn, R. I, Driessen, M. C. Characterization and properties of metallic iron nanoparties: Spectroscopy, electrochemistry and kinetics, Journal of Enviromental science technology, 2005, 39, 1221- 1230.
Gautam, R, Rawat, V, Banerjee, S, Sanroman, M, Soni, S, Singh, S, Chattopadhyaya, M. Synthesis of bimetallic Fe-Zn nanoparticles and its application toward adsorptive removal of carcinogentic dye malachite green and cogo¬red in water, Journal of Molecular Liquids, 2015, 212, 227- 236.
Satheesh, R, Vignesh, K, Rajarajan, M, Suganthi, A, Sreekantan, S, Kang, M, Kwank, B. Removal of congo¬red from water using quercetin modified α- Fe2O3 nano¬particles as effective nano¬adsorbent, Journal of Materials Chemistry and Physics, 2016, 180, 53- 65.
Bhattacharra, R, Ray, S. Removal of congo¬red and methyl violet from water using nano¬clay filled composite hydrogels of poly acrylic acid and polyethylene golycol, Journal of Chemical Engineering, 2015, 260, 269-283.
Seyahmazegi, E, Rezaei, R, Razmi, H. Multiwall carbon nanotubes decorated on calcined eggshell waste as a novel nano- sorbent: Application for anionic dye congo¬red removal, Journal of Chemical Engineering Research and Design, 2016, 109, 824-834.
Vartooni, A, Nasrollahzadeh, M, Alizade, M. Green synthesis of seashell supported silver nano¬particles using bunium persicum seeds extract: Application of the particles for catalytic, Journal of colloid and interface science, 2016, 470, 268-275.
Ahmadi, K. Ghaedi, M, Ansari, A. Comparison of nickel doped zinc sulfide and palladium nanoparticle loaded on activated carbon as efficient adsorbents for kinetic and equillibrium study of removal of congo¬red dye, Journal of Molecular and Biomolecular Spectroscopy, 2015, 136, 1441- 1449.
Chan, S, Tan, Y, Abdullah, A, Ong, S. Equillibrium, Kinetic and Thermodynamic studies of a new potential biosorbent for the removal of basic blue 3 and congo¬red dyes: pineapple (ananas comosus) plant stem, Journal of the chemical engineers, 2016, 61, 306- 315.
Ghorai, S, Sarkar, A, Panda, A. B, Pal, S. Effective removal of congo¬red dye from aqueous solution using modified xanthan gum/silica hybrid nano-composite as adsorbent, Journal of Bioresource Technology, 2013, 144, 485-491.
Abbas, M, Trari, M. Kinetic, Equillbrium and Thermodynamic study on the removal of cogored from aqueos solution by adsorption onto apricot stone, Journal of Process Safety And Environment Protection, 2015, 98, 424- 436.
An, S, Liu, X, Yang, L, Zhang, L. Enhancement removal of crystal violet dye using magnetic calcium ferrite nanoparticle: Study in single- and binary-solute system, Journal of Chemical Engineering Research and Design, 2014, 94, 726-735.