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Performance Evaluation of Modified Zeolite with Mg for the Treatment of Dyeing Wastewater
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 Title & Authors
Performance Evaluation of Modified Zeolite with Mg for the Treatment of Dyeing Wastewater
Choi, Hee-Jeong;
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The aim of this study was to investigate the bio-adsorption using modified zeolite with Mg (Mg-zeolite) in the dyeing wastewater treatment. Mg-zeolite adsorbed successfully 100% of the color, suspended solid (SS). chemical oxygen demand (COD), biological oxygen demand (BOD), total nitrogen (TN) and total phosphorus (TP) in the dyeing wastewater at the following optimal Mg-zeolite loading: 20 mg/L for colour, SS, TN and TP, 30 mg/L for BOD and COD. These results indicated that the amount of 1 mg/L Mg-zeolite adsorbed 11.6 mg/L for color, 9.5 mg/L for SS, 45.0 mg/L for COD, 12.7 mg/L for BOD, 0.91 mg/L for TP and 2.25 mg/L for TN. The bio-adsorbent, Mg-zeolite, can be a promising adsorption due to its high efficiency and low dose requirements.
Adsorption;Dyeing Wastewater;Modified Zeolite;Wastewater Treatment;Zeolite;
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Abidi, N., Errais, E., Duplay, J., Berez, A., Jrad, A., Schafer, G., Ghazi, M., Semhi, K., and Trabelsi-Ayadi, M. (2015). Treatment of Dye-Containing Effluent by Natural Clay, Journal of Cleaner Production, 86, pp. 432-440. crossref(new window)

Amuda, O. S. and Alade, A. (2006). Coagulation/Flocculation Process in The Treatment of Abattoir Wastewater, Desalination, 196, pp. 22-31. crossref(new window)

Blanco, J., Torrades, F., Moron, M., Brouta-Agnesa, M., and Garcia-Montano, J. (2014). Photo-Fenton and Sequencing Batch Reactor coupled to Photo-Fenton Processes for Textile Wastewater Reclamation: Feasibility of Reuse in Dyeing Processes, Chemical Engineering Journal, 240, pp. 469-475. crossref(new window)

Chen, T., Gao, B., and Yue, Q. (2010). Effect of Dosing Method and pH on Color Removal Performance and Floc Aggregation of Polyferric Chloride-Polyamine Dual-Coagulant in Synthetic Dyeing Wastewater Treatment, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 355 (1-3), pp. 121-129. crossref(new window)

Filippousi, M., Turner, S., Katsikini, M., Pinakidou, F., Zamboulis, D., Pavlidou, E., and Tendeloo, G. V. (2015). Direct Observation and Structural Characterization of Natural and Metal Ion-exchanged HEU-Type Zeolites, Microporous and Mesoporous Materials, 210, pp. 185-193. crossref(new window)

Ismail, I. M., Fawzy, A. S., Abdel-Monem, N. M., Mahmoud Mohamed, A., and El-Halwany, M. A. (2012). Combined Coagulation Flocculation Pre-treatment Unit for Municipal Wastewater, Journal of Advanced Research, 3, pp. 331-336. crossref(new window)

Kim, M. K., Ahn, J. N., and Kong, D. S. (2008). Characteristics and Treatment Technologies of Textile Wastewater, Journal of Korean Society Environmental Engineering, 30(1), pp. 3-8.

Lin, P. J., Yang, M. C., Li, Y. L., and Chen, J. H. (2015). Prevention of Surfactant Wetting with Agarose Hydrogel Layer for Direct Contact Membrane Distillation used in Dyeing Wastewater Treatment, Journal of Membrane Science, 475, pp. 511-520. crossref(new window)

Lotito, A. M., Fratino, U., Mancini, A., Bergna, G., and Iaconi, C. D. (2012). Effective Aerobic Granular Sludge Treatment of a Real Dyeing Textile Wastewater, International Biodeterioration & Biodegradation, 69, pp. 62-68. crossref(new window)

Lu, K., Zhang, X. L., Zhao, Y. L., and Wu, Z. L. (2010). Removal of Color from Textile Dyeing Wastewater by Foam Separation, Journal of Hazardous Materials, 182(1-3), pp. 928-932. crossref(new window)

Margeta, K., Logar, N. Z., Śiljeg, M., and Farkas, A. (2013). Natural Zeolite in Water Treatment-How Effective is Their Use, Water Treatment, edited by Walid Elshorbagy and Kabir Chowdhury, INTECH, Chapter 5.

Ministry of Environment (MOE). (2013). Environmental Statistics Yearbook, Ministry of Environment, 26.

Moghaddam, S.S., Alavi Moghaddam, M. R., and Arami, M. (2010). Coagulation/Flocculation Process for Dye Removal Using Sludge from Water Treatment Plant: Optimization through Response Surface Methodology, Journal of Hazardous Materials, 175, pp. 651-657. crossref(new window)

Park, J. M., Kam, S. K., and Lee, M. G. (2013). Adsorption Characteristics of Lithium Ion by Zeolite Modified in K, Na, Mg, Ca and Al Forms, International Journal of Environmental Sciences, 22(12), pp. 1651-1660. crossref(new window)

Rahman, A., Urabe, T., and Kishimoto, N. (2013). Color Removal of Reactive Procion Dyes by Clay Adsorbents, Procedia Environmental Sciences, 17, pp. 270-278. crossref(new window)

Rodrigues, C. S. D., Madeira, L. M., and Boaventura, R. A. R. (2014). Synthetic Textile Dyeing Wastewater Treatment by Integration of Advanced Oxidation and Biological Processes-Performance Analysis with Costs Reduction, Journal of Environmental Chemical Engineering, 2(2), pp. 1027-1039. crossref(new window)

Rodrigues, F., Gao, B. Y., Zhang, Y. F., Zhang, X. Y., and Shi, N. (2011). Organic Modifier of Poly-Silicic-Ferric Coagulant: Characterization, Treatment of Dyeing Wastewater and Floc Change During Coagulation, Desalination, 277(1-3), pp. 67-73. crossref(new window)

Rong, H., Gao, B., Li, R., Wang, Y., Yue, Q., and Li, Q. (2014). Effect of Dose Methods of a Synthetic Organic Polymer and PFC on Floc Properties in Dyeing Wastewater Coagulation Process, Chemical Engineering Journal, 243, pp. 169-175. crossref(new window)

Sathian, S., Rajasimman, M., Rathnasabapathy, C. S., and Karthikeyan, C. (2014). Performance Evaluation of SBR for the Treatment of Dyeing Wastewater by Simultaneous Biological and Adsorption Processes, Journal of Water Process Engineering, 4, pp. 82-90. crossref(new window)

Soares, P. A., Batalha, M., Selene, M. A., Souza, G. U., Boaventura, R. A. R., and Vilar, V. J. P. (2015). Enhancement of a Solar Photo-Fenton Reaction with Ferric-Organic Ligands for the Treatment of Acrylic-Textile Dyeing Wastewater, Journal of Environmental Management, 152, pp. 120-131. crossref(new window)

Whiting, G. T., Grondin, D., Stosic, D., Bennici, S., and Auroux, A. (2014). Zeolite-$MgCl_2$ Composites as Potential Long-Term Heat Storage Materials: Influence of Zeolite Properties on Heats of Water Sorption, Solar Energy Materials & Solar Cells, 128, pp. 289-295. crossref(new window)

Ying, F., Gao, B. Y., Zhang, Y. F., Zhang, X. Y., Shi, N. (2011). Organic modifier of poly-silicic-ferric coagulant: Characterization, treatment of dyeing wastewater and floc change during coagulation, Desalination, 277(1-3), pp. 67-73. crossref(new window)

Yun, G. B. (2004). Nanoporous Materials: Zeolite, Physics & High Technology, 13(7-8), pp. 2-11.

Zhan, Z., Ma, N., Yan, H., Peng, Y., Wang, Z., and Yan, Y. (2015). Heat Treatment for Improving Performance of Inner-Side Zeolite NaA Membranes on Composite Hollow Fibers, Journal of Membrane Science, 485, pp. 94-102. crossref(new window)