Volume 17, Issue 4 (11-2018)
TB 2018, 17(4): 94-108 |
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shirgholami M, nasirizadeh N, mirjalili M. Efficiency of Carbon Ceramic Nanocomposite Modified with Multi-Walled Carbon Nano Tubes for Removal of Acid Red 37 from Wastewaters. TB 2018; 17 (4) :94-108
URL: http://tbj.ssu.ac.ir/article-1-2567-en.html
URL: http://tbj.ssu.ac.ir/article-1-2567-en.html
Islamic Azad universitu of yazd , nasirizadeh@yahoo.com
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1-Prasad A, Rao KVB. Physicochemical analysis of textile effluent and decolorization of textile azo dye by Bacillus Endophyticus strain VITABR13. The IIOAB Journal. 2011; 2:55-62.
2-Baghapour MA, Pourfadakari S, Mahvi AH. Investigation of Reactive Red Dye 198 removal using multiwall carbon nanotubes in aqueous solution. J Ind Eng Chem. 2014; 20: 2921-6.
3-Saravanana R, Karthikeyan N, Gupta VK, Thirumal E, Thangaduraid P, Narayanane V, Stephen A. ZnO/Ag nanocomposite: an efficient catalyst for degradation studies of textile effluents under visible light. Mater Sci Eng: C. 2013; 33: 2235-44.
4-Eslami A, Moradi M, Ghanbari F, Mehdipour F. Decolorization and COD removal from real textile wastewater by chemical and electrochemical Fenton processes: a comparative study. J Environ Health Sci Eng. 2013; 11: 31-8.
5-Debnath S, Ballav N, Nyoni H, Maityb A, Pillaya K. Optimization and mechanism elucidation of the catalytic photo-degradation of the dyes Eosin Yellow (EY) and Naphthol blue black (NBB) by a polyaniline-coated titanium dioxide nanocomposite. Appl Catal B. 2015; 163:330-42.
6-Maleki A, Mahvi AH, Ebrahimi R, Zandsalimi Y. Study of photochemical and Sonochemical processes efficiency for degradation of dyes in aqueous solution. Korean J Chem Eng. 2013; 27:1805–10.
7-Wang X, Wang L, Li J, Qiu J, Cai C, Zhang H. Degradation of Acid Orange 7 by persulfate activated with zero valent iron in the presence of ultrasonic irradiation. Sep Purif Tech. 2014;122: 41–6.
8-Sadri Moghaddam S, Alavi Moghaddam MR, Arami M. Coagulation/flocculation process for dye removal using sludge from water treatment plant: Optimization through response surface methodology. J Hazard Mat. 2013; 175: 651-7.
9-Wu JS, Liu C, Chu K, Suen S. Removal of cationic dye methyl violet 2B from water by cation exchange membranes. J Membrane Sci. 2008; 309:239-45.
10-Laasri L, Elamrani MK, Cherkaoui O. Removal of two cationic dyes from a textile effluent by filtration-adsorption on wood sawdust. Environ Sci Poll Res I. 2007; 14: 237-40.
11- Radi MA, Nasirizadeh N, Rohani-Moghadam M, Dehghani M. The comparison of sonochemistry, electrochemistry and sonoelectrochemistry techniques on decolorization of C.I Reactive Blue 49. Ultrason Sonochem. 2015; 27: 609–15.
12-Kasiri MB, Modirshahla N, Mansouri H. Decolorization of organic dye solution by ozonation; Optimization with response surface methodology. Int J Ind Chem. 2013; 4: 3-9.
13-Bethi SH, Sonawane GS, Rohit CR, Pinjari DV, Bhanvase BA, Pandit AB. Investigation of TiO2 photocatalyst performance for decolorization in the presence of hydrodynamic cavitation as hybrid AOP. Ultrason Sonochem. 2016; 28:150-60.
14-Duc DY. Response surface optimization for decolorization of Basic Blue 41 by Fentons reagent. Int J Chem Tech Res. 2014; 6: 3943-8.
15-Mezohegyi G, van der Zee FP, Font J, Fortuny A, Fabregat A. Towards advanced aqueous dye removal processes: A short review on the versatile role of activated carbon. J Environ Manag. 2012; 102:148-64.
16-Mahmudov R, Huang CP. Perchlorate removal by activated carbon adsorption. Sep Purif Technol. 2010; 70:329-37.
17-Mohammed MI, Abdul Razak AA, Al-Timimi DAH. Modified Multiwalled Carbon Nanotubes for Treatment of Some Organic Dyes in Wastewater. Adv Mat Sci Eng. 2014; 1-10.
18-Esfandiyari T, Nasirizadeh N, Dehghani M, Ehrampoosh MH. Graphene oxide based carbon composite as adsorbent for Hg removal: Preparation, characterization, kinetics and isotherm studies. Chinese J Chem Eng. 2017; 25: 1170–5.
19-Esfandiyari T, Nasirizadeh N, Ehrampoosh MH, Tabatabaee M. Characterization and absorption studies of cationic dye on multi walled carbon nanotube–carbon ceramic composite. J Ind Eng Chem. 2017; 46: 35-43.
20- Hamesadeghi U, Najafi F, Daraei H, Ghahremani E, Rahmani R, Gharibi F, Maleki A. Removal of acid black 1 dye by carbon nanotube-dendrimer composite: operation parameters, isotherms and kinetic. Scientific J Kurdistan Uni Med Sci. 2014; 19(3): 141-52.
21- Pourfadakari S, Mahvi A. nvestigation of Acid Black1 removal using multi wall Nano tubes Carbon in Aqueous Solution. TB. 2016; 14 (6) :214-226.
22- Rezaei S, , Malakootian M. Kinetics and Isotherm Studies of Methylene Blue Adsorption from Aqueous Solutions by Activated Fly Ash. TB. 2016; 14 (6) :149-166
23- Ghaneian M, Ehrampoush M, Safdari M, Emamjomeh M, Askarishahi M. Performance of Olive pit Ash's In Nitrate Removal from the Aqueous Solutions. TB. 2014; 13 (2) :168-177.
24- Hamesadeghi U, Najafi F, Gharibi F, Maleki A. Adsorption of Acid Black 1 Dye from Aqueous Solution by Amine-Functionalized Carbon Nanotubes. Journal of Health. 2016; 7 (5): 643- 55.
25-Wang P, Cao M, Wang C, Ao Y, Hou J, Qian J. Kinetics and thermodynamics of adsorption of methylene blue by a magnetic graphene-carbon nanotube composite. Appl Surf Sci. 2014; 290: 116-24.
26-Sui K, Li Y, Liu R, Zhang Y, Zhao X, Liang H, Xia Y. Biocomposite fiber of calcium alginate/multi-walled carbon nanotubes with enhanced adsorption properties for ionic dyes. Carbohydr Polym. 2012; 90(1): 399-406.
27-Pourfadakari S, Yousefi N, Mahvi AH. Removal of Reactive Red 198 from aqueous solution by combined method multi-walled carbon nanotubes and zero-valent iron: Equilibrium, kinetics, and thermodynamic. Chinese J Chem Eng. 2016; 24(10): 1448-55.
28-Zhang Z and Kong J. Novel magnetic Fe3O4@C nanoparticles as adsorbents for removal of organic dyes from aqueous solution. J Hazard Mater. 2011; 193: 325-9.
2-Baghapour MA, Pourfadakari S, Mahvi AH. Investigation of Reactive Red Dye 198 removal using multiwall carbon nanotubes in aqueous solution. J Ind Eng Chem. 2014; 20: 2921-6.
3-Saravanana R, Karthikeyan N, Gupta VK, Thirumal E, Thangaduraid P, Narayanane V, Stephen A. ZnO/Ag nanocomposite: an efficient catalyst for degradation studies of textile effluents under visible light. Mater Sci Eng: C. 2013; 33: 2235-44.
4-Eslami A, Moradi M, Ghanbari F, Mehdipour F. Decolorization and COD removal from real textile wastewater by chemical and electrochemical Fenton processes: a comparative study. J Environ Health Sci Eng. 2013; 11: 31-8.
5-Debnath S, Ballav N, Nyoni H, Maityb A, Pillaya K. Optimization and mechanism elucidation of the catalytic photo-degradation of the dyes Eosin Yellow (EY) and Naphthol blue black (NBB) by a polyaniline-coated titanium dioxide nanocomposite. Appl Catal B. 2015; 163:330-42.
6-Maleki A, Mahvi AH, Ebrahimi R, Zandsalimi Y. Study of photochemical and Sonochemical processes efficiency for degradation of dyes in aqueous solution. Korean J Chem Eng. 2013; 27:1805–10.
7-Wang X, Wang L, Li J, Qiu J, Cai C, Zhang H. Degradation of Acid Orange 7 by persulfate activated with zero valent iron in the presence of ultrasonic irradiation. Sep Purif Tech. 2014;122: 41–6.
8-Sadri Moghaddam S, Alavi Moghaddam MR, Arami M. Coagulation/flocculation process for dye removal using sludge from water treatment plant: Optimization through response surface methodology. J Hazard Mat. 2013; 175: 651-7.
9-Wu JS, Liu C, Chu K, Suen S. Removal of cationic dye methyl violet 2B from water by cation exchange membranes. J Membrane Sci. 2008; 309:239-45.
10-Laasri L, Elamrani MK, Cherkaoui O. Removal of two cationic dyes from a textile effluent by filtration-adsorption on wood sawdust. Environ Sci Poll Res I. 2007; 14: 237-40.
11- Radi MA, Nasirizadeh N, Rohani-Moghadam M, Dehghani M. The comparison of sonochemistry, electrochemistry and sonoelectrochemistry techniques on decolorization of C.I Reactive Blue 49. Ultrason Sonochem. 2015; 27: 609–15.
12-Kasiri MB, Modirshahla N, Mansouri H. Decolorization of organic dye solution by ozonation; Optimization with response surface methodology. Int J Ind Chem. 2013; 4: 3-9.
13-Bethi SH, Sonawane GS, Rohit CR, Pinjari DV, Bhanvase BA, Pandit AB. Investigation of TiO2 photocatalyst performance for decolorization in the presence of hydrodynamic cavitation as hybrid AOP. Ultrason Sonochem. 2016; 28:150-60.
14-Duc DY. Response surface optimization for decolorization of Basic Blue 41 by Fentons reagent. Int J Chem Tech Res. 2014; 6: 3943-8.
15-Mezohegyi G, van der Zee FP, Font J, Fortuny A, Fabregat A. Towards advanced aqueous dye removal processes: A short review on the versatile role of activated carbon. J Environ Manag. 2012; 102:148-64.
16-Mahmudov R, Huang CP. Perchlorate removal by activated carbon adsorption. Sep Purif Technol. 2010; 70:329-37.
17-Mohammed MI, Abdul Razak AA, Al-Timimi DAH. Modified Multiwalled Carbon Nanotubes for Treatment of Some Organic Dyes in Wastewater. Adv Mat Sci Eng. 2014; 1-10.
18-Esfandiyari T, Nasirizadeh N, Dehghani M, Ehrampoosh MH. Graphene oxide based carbon composite as adsorbent for Hg removal: Preparation, characterization, kinetics and isotherm studies. Chinese J Chem Eng. 2017; 25: 1170–5.
19-Esfandiyari T, Nasirizadeh N, Ehrampoosh MH, Tabatabaee M. Characterization and absorption studies of cationic dye on multi walled carbon nanotube–carbon ceramic composite. J Ind Eng Chem. 2017; 46: 35-43.
20- Hamesadeghi U, Najafi F, Daraei H, Ghahremani E, Rahmani R, Gharibi F, Maleki A. Removal of acid black 1 dye by carbon nanotube-dendrimer composite: operation parameters, isotherms and kinetic. Scientific J Kurdistan Uni Med Sci. 2014; 19(3): 141-52.
21- Pourfadakari S, Mahvi A. nvestigation of Acid Black1 removal using multi wall Nano tubes Carbon in Aqueous Solution. TB. 2016; 14 (6) :214-226.
22- Rezaei S, , Malakootian M. Kinetics and Isotherm Studies of Methylene Blue Adsorption from Aqueous Solutions by Activated Fly Ash. TB. 2016; 14 (6) :149-166
23- Ghaneian M, Ehrampoush M, Safdari M, Emamjomeh M, Askarishahi M. Performance of Olive pit Ash's In Nitrate Removal from the Aqueous Solutions. TB. 2014; 13 (2) :168-177.
24- Hamesadeghi U, Najafi F, Gharibi F, Maleki A. Adsorption of Acid Black 1 Dye from Aqueous Solution by Amine-Functionalized Carbon Nanotubes. Journal of Health. 2016; 7 (5): 643- 55.
25-Wang P, Cao M, Wang C, Ao Y, Hou J, Qian J. Kinetics and thermodynamics of adsorption of methylene blue by a magnetic graphene-carbon nanotube composite. Appl Surf Sci. 2014; 290: 116-24.
26-Sui K, Li Y, Liu R, Zhang Y, Zhao X, Liang H, Xia Y. Biocomposite fiber of calcium alginate/multi-walled carbon nanotubes with enhanced adsorption properties for ionic dyes. Carbohydr Polym. 2012; 90(1): 399-406.
27-Pourfadakari S, Yousefi N, Mahvi AH. Removal of Reactive Red 198 from aqueous solution by combined method multi-walled carbon nanotubes and zero-valent iron: Equilibrium, kinetics, and thermodynamic. Chinese J Chem Eng. 2016; 24(10): 1448-55.
28-Zhang Z and Kong J. Novel magnetic Fe3O4@C nanoparticles as adsorbents for removal of organic dyes from aqueous solution. J Hazard Mater. 2011; 193: 325-9.
Type of Study: Research |
Subject:
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Received: 2017/08/8 | Accepted: 2017/11/8 | Published: 2018/12/8
Received: 2017/08/8 | Accepted: 2017/11/8 | Published: 2018/12/8
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