Browse > Article
http://dx.doi.org/10.12989/mwt.2019.10.2.139

Removal of Methylene blue from saline solutions by adsorption and electrodialysis  

Lafi, Ridha (Laboratory of Water, Membranes and Biotechnologies, Water Researches and Technologies Center (CERTE))
Mabrouk, Walid (Laboratory of Water, Membranes and Biotechnologies, Water Researches and Technologies Center (CERTE))
Hafiane, Amor (Laboratory of Water, Membranes and Biotechnologies, Water Researches and Technologies Center (CERTE))
Publication Information
Membrane and Water Treatment / v.10, no.2, 2019 , pp. 139-148 More about this Journal
Abstract
In this study, the removal of MB from saline solutions was evaluated by two methods by adsorption and electrodialysis; the adsorption of the mixture dye/salt on dried orange peel waste (OPW) was studied in batch method. In this study the biosorption of cationic dye by OPW was investigated as a function of initial solution pH, and initial salt (sodium chloride) concentration. The maximal dye uptake at $pH{\geq}3.6$ in the absence and in the presence of salt and the dye uptake diminished considerably in the presence of increasing concentrations of salt up to 8 g/L. The Redlich Peterson and Langmuir were the most suitable adsorption models for describing the biosorption equilibrium data of the dye both individually and in salt containing medium. As well, this work deals with the electrodialysis application to remove the dye. Synthetic solutions were used for the investigation of the main operational factors affecting the treatment performance; such as applied voltage, pH, initial dye concentration and ionic strength. The experimental results for adsorption and electrodialysis confirmed the importance of electrostatic interactions on the dye. The electrodialysis process with standard ion exchange membranes enabled efficient desalination of cationic dye solutions; there are two main factors in fouling: electrostatic interaction between cations of dyes and the fixed charged groups of the CEM, and affinity interactions.
Keywords
methylene blue; orange peel waste; adsorption; electrodialysis; fouling; interaction;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Nataraj, S.K., Sridhar, S., Shaikha, I.N., Reddy, D.S. and Aminabhavi, T.M. (2007), "Membrane-based microfiltration/electrodialysis hybrid process for the treatment of paper industry wastewater", Sep. Purif. Technol., 57(1), 185-192.   DOI
2 Ncibi, M.C., Mahjoub, B. and Seffen, M. (2008), "Investigation of the sorption mechanisms of metal-complexed dye onto Posidonia oceanica (L.) fibres through kinetic modelling analysis", Biores. Technol., 99(13), 5582-5589.   DOI
3 Newcombe, G. and Drikas, M. (1997), "Adsorption of NOM onto activated carbon: Electrostatic and non-electrostatic effects", Carbon., 35(9), 1239-1250.   DOI
4 Panswed, J. and Wongchaisuwan, S. (1986), "Mechanism of dye wastewater color removal by magnesium carbonate-hydrated basic", Water Sci. Technol., 18(3), 139-144.   DOI
5 Pavan, F.A., Lima, E.C., Dias, S.L.P. and Mazzocato, A.C. (2008), "Methylene blue biosorption from aqueous solutions by yellow passion fruit waste", J. Hazard. Mater., 150(3), 703-712.   DOI
6 Pelekani, C. and Snoeyink, V.L. (2000), "Competitive adsorption between atrazine and methylene blue on activated carbon: The importance of pore size distribution", Carb., 38(10), 1423-1436.   DOI
7 Redlich, O. and Peterson, D.L. (1959), "A useful adsorption isotherm", J. Phys. Chem., 63(6), 1024-1026.   DOI
8 Aksu, Z. and Balibek, E. (2010), "Effect of salinity on metalcomplex dye biosorption by rhizopus arrhizus", J. Environ. Manage., 91(7), 1546-1555.   DOI
9 Aksu, Z. and Balibek, E. (2007), "Chromium (VI) biosorption by dried Rhizopus arrhizus: Effect of salt (NaCl) concentration on equilibrium and kinetic parameters", J. Hazard. Mater., 145(1-2), 210-220.   DOI
10 Rehman, M.S.U., Kim, I. and Han, J. (2012), "Adsorption of methylene blue dye from aqueous solution by sugar extracted spent rice biomass", Carbohyd. Polym., 90(3), 1314-1322.   DOI
11 Saeeda, A., Sharif, M. and Iqbal, M. (2010), "Application potential of grapefruit peel as dye sorbent: Kinetics, equilibrium and mechanism of crystal violet adsorption", J. Hazard. Mater., 179(1-3), 564-572.   DOI
12 Temkin, M.J. and Pyzhev, V. (1940), "Recent modifications to langmuir isotherms", Acta Physiochim. USSR, 122, 17-222.
13 Xu, T. (2005), "Ion exchange membranes: State of their development and perspective", J. Membr. Sci., 263(1-2), 1-29.   DOI
14 Ali, M.B.S., Ennigrou, D.J. and Hamrouni, B. (2013), "Iron removal from brackish water by electrodialysis", Environ. Technol., 34(17), 2521-2529.   DOI
15 Hosseini, S., Khan, M.A., Malekbala, M.R., Cheah, W. and Choong, T.S.Y. (2011), "Carbon coated monolith, a mesoporous material for the removal of methyl orange from aqueous phase: Adsorption and desorption studies", Chem. Eng. J., 171(3), 1124-1131.   DOI
16 Freundlich, H.M.F. (1906), "Over the adsorption in solution", J. Phys. Chem., 57, 385-470.
17 Gnanasambandam R. and Protor, A. (2000), "Determination of pectin degree of esterification by diffuse reflectance Fourier transform infrared spectroscopy", Food Chem., 68(3), 327-332.   DOI
18 Guibaud, G., Tixier, N., Bouju, A. and Baudu, M. (2003), "Relationship between extracellular polymer's composition and its ability to complex Cd, Cu and Ni", Chemosph., 52(10), 1701-1710.   DOI
19 Hu, Y., Guo, T., Ye, X., Li, Q., Guo, M., Liu, H. and Wu, Z. (2013), "Dye adsorption by resins: Effect of ionic strength on hydrophobic and electrostatic interactions", Chem. Eng. J., 228, 392-397.   DOI
20 Iqbal, M., Saeed, A. and Zafar S.I. (2009), "FTIR spectrophotometry, kinetics and adsorption isotherms modeling, ion exchange, and EDX analysis for understanding the mechanism of $Cd^{2+}$ and $Pb^{2+}$ removal by mango peel waste", J. Hazard. Mater., 164(1), 161-171.   DOI
21 Ali, M.B.S., Mnif, A., Hamrouni, B. and Dhahbi, M. (2010), "Electrodialytic desalination of brackish water: Effect of process parameters and water characteristics", Ion., 16(7), 621-629.   DOI
22 Belkada, F.D., Kitous, O., Drouiche, N., Aoudj, S., Bouchelaghem, O., Abdi, N., Grib, H. and Mameri, N. (2018), "Electrodialysis for fluoride and nitrate removal from synthesized photovoltaic industry wastewater", Sep. Purif. Technol., 204, 108-115.   DOI
23 Ben Douissa, N., Bergaoui, L., Mansouri, S., Khiari, R. and Mhenni, M.F. (2013), "Macroscopic and microscopic studies of methylene blue sorption onto extracted celluloses from Posidonia oceanica", Ind. Crop. Produ., 45, 106-113.   DOI
24 Chandramowleeswaran, M. and Palanivelu, K. (2006), "Treatability studies on textile effluent for total dissolved solids reduction using electrodialysis", Desalinat., 201(1-3), 164-174.   DOI
25 Chenna, M., Chemlal, R., Drouiche. N., Messaoudi, K. and Lounici, H. (2016), "Effectiveness of a physicochemical coagulation/flocculation process for the pretreatment of polluted water containing hydron blue dye", Des. Water Treat., 57(56), 27003-27014.   DOI
26 Ciardelli, G., Corsi, L. and Marucci, M. (2000), "Membrane separation for wastewater reuse in the textile industry", Res. Conserv. Recycl., 31(2), 189-197.   DOI
27 Drouiche, N., Grib, H., Abdi, N., Lounici, H., Pauss, A. and Mameri, N. (2009), "Electrodialysis with bipolar membrane for regeneration of a spent activated carbon", J. Hazard. Mater., 170(1), 197-202.   DOI
28 Zhou, Q., Gong, W., Xie, C., Yang, D., Ling, X., Yuan, X., Chen, S. and Liu, X. (2011), "Removal of neutral red from aqueous solution by adsorption on spent cottonseed hull substrate", J. Hazard. Mater., 185(1), 502-506.   DOI
29 Irem, S., Khan, Q.M., Islam, E., Hashmat, A.J., Ul Haq, M.A., Afzal, M. and Mustafa, M.T. (2013), "Enhanced removal of reactive navy blue dye using powdered orange waste", Eco. Eng., 58, 399-405.   DOI
30 Jingfeng, G., Qian, Z., Kai, S., Ranni, C. and Yongzhen, P. (2010), "Biosorption of acid yellow 17 from aqueous solution by nonliving aerobic granular sludge", J. Hazard. Mater., 174(1-3), 215-225.   DOI
31 Kadirvelu, K. and Namasivayam, C. (2003), "Activated carbon from coconut coir pith as metal adsorbent: Adsorption of Cd (II) from aqueous solution", Adv. Environ. Res., 7(2), 471-478.   DOI
32 Langmuir, I. (1918), "The adsorption of gases on plane surfaces of glass, mica and platinum", J. Am. Chem. Soc., 40(9), 1361-1403.   DOI
33 Li, F.T., Yang, H., Zhao, Y. and Xu, R. (2007), "Novel modified pectin for heavy metal adsorption", Chin. Chem. Lett., 18(3), 325-328.   DOI
34 Li, Q., Yue, Q., Sun, H., Su, Y. and Gao, B. (2010), "A comparative study on the properties, mechanisms and process designs for the adsorption of non-ionic or anionic dyes onto cationic polymer/bentonite", J. Environ. Manage., 91(7), 1601-1611.   DOI
35 Liu, T., Li, Y., Du, Q., Sun, J., Jiao, Y., Yang, G., Wang, Z., Xia, Y., Zhang, W., Wang, K., Zhu, H. and Wu, D. (2012), "Adsorption of methylene blue from aqueous solution by graphene", Colloid. Surf. B, 90, 197-203.   DOI
36 Majewska-Nowak, K.M. (2013), "Treatment of organic dye solutions by electrodialysis", Membr. Water Treat., 4(3), 203-214.   DOI
37 Maurya, N.S., Mittal, A.K., Cornel, P. and Rother, E. (2006), "Biosorption of dyes using dead macro fungi: Effect of dye structure, ionic strength and pH", Biores. Technol., 97(3), 512-521.   DOI
38 Yaroslavtsev, A.B. and Nikonenko, V.V. (2009), "Ion-exchange membrane materials: Properties, modification, and practical application", Nanotechnol. Russ., 4(3-4), 137-159.   DOI
39 Fadel, A., Lafi, R., Aouni, A., Hafiane, A. and Nacef, S. (2016), "Separation of zinc ions from synthetically prepared brackish water using electrodialysis: Effect of operating parameters", Des. Water Treat., 57(38), 17852-17860.   DOI
40 Farinella, N.V., Matos, G.D. and Arruda M.A.Z. (2007), "Grape bagasse as a potential biosorbent ofmetals in effluent treatment", Biores. Technol., 98(10), 1940-1946.   DOI