REFERENCES
- Abali, Y., S. Çolak, and S. Yapıcı. 1997. “The Optimization of the Dissolution of Phosphate Rock with Cl2-SO2 Gas Mixtures in Aqueous Medium.” Hydrometallurgy 46: 27–35.
- Arslan, I. 2001. “Treatability of a Simulated Disperse Dye-Bath by Ferrous Iron Coagulation, Ozonation, and Ferrous Iron-Catalyzed Ozonation.” J. Hazard. Mater. 85: 229–241.
- Arslan, I., and I.A. Balcioglu. 2000. “Effect of Common Reactive Dye Auxiliaries on the Ozonation of Dyehouse Effluents Containing Vinylsulphone and Aminochlorotriazine Dyes.” Desalination 130: 61–71.
- Beltran, F.J. 2004. Ozone Reaction Kinetics for Water and Wastewater Systems. Boca Raton, FL: Lewis Publishers.
- Beltran, F.J., J.F. Garcia–Araya, and P.M. Alvarez. 2001.”Domestic Wastewater Ozonation: A Kinetic Model Approach.” Ozone Sci. Eng. 23: 219–228.
- Brunauer, S., P.H. Emmett, and E. Teller. 1938. “Biosorption of Gases in Multimolecular Layers.” J. Am. Chem. Soc. 60: 309–319.
- Carriere, J., P. Jones, and A.D. Broadbent. 1993.”Decolorization of Textile Dye Solutions.” Ozone Sci. Eng. 15: 189–200.
- Celik, C., and N. Burnak. 1998. “A Systematic Approach to the Solution of the Design Optimization Problem.” Total. Qual. Manag. Bus. 9: 101–108.
- Chiang, H.L., P.C. Chiang, and C.P. Huang. 2002. “The Surface Characteristics of Activated Carbon as Affected by Ozone and Alkaline Treatment.” Chemosphere 47: 227–267.
- Deitz, V.R., and J.L. Bitner. 1972a. “Reaction of Ozone With Adsorbent Charcoal.” Carbon 10: 145–154.
- Deitz, V.R., and J.L. Bitner. 1972b. ”Interaction of Ozone with Adsorbent Charcoals.” Carbon 11: 339–401.
- Donmez, B., C. Çelik, S. Çolak, and A. Yartası. 1998. “Dissolution Optimization of Copper from Anode Slime in H2SO4 Solutions.” Ind. Eng. Chem. Res. 37: 3382–3387.
- Hao, O.J., H. Kim, and P.C. Chiang. 2000. “Decolorization of Wastewater.” Crit. Rev. Env. Sci. Technol. 30: 449–505.
- Hassan, M.M., and C.J. Hawkyard. 2002. “Ferral-Catalyzed Ozonation of Aqueous Dyes in a Bubble-Column Reactor.” Catal.Commun. 3: 281–286.
- Hoigné, J. 1998. “Chemistry of Aqueous Ozone and Transformation of Pollutants by Ozonation and Advanced Oxidation Processes.” The Handbook of Environmental Chemistry 5 (Part C). Berlin, Heidelberg, Germany: Springer. 5: 83–141.
- Khoei, A.R., I. Masters, and D.T. Gethin. 2002. “Design Optimization of Aluminium Recycling Processes Using Taguchi Technique.” J. Mater. Process. Tech. 127: 96–106.
- Konsowa, A.H., M.E. Ossman, Y. Chen, and J.C. Crittenden. 2010. “Decolorization of Industrial Wastewater by Ozonation Followed by Adsorption on Activated Carbon.” J. Hazard. Mater. 176: 181–185.
- Koyuncu, I., and H. Afsar. 1996. “Decomposition of Dyes in the Textile Wastewater with Ozone.” J. Environ. Sci. Health A 31: 1035–1041.
- Krull, R., M. Hemmi, P.D. Otto, and C. Hempel. 1998. “Combined Biological and Chemical Treatment of Highly Concentrated Residual Dyehouse Liquors.” Water. Sci. Technol. 38: 339–346.
- Kuo, W.K. 1992. “Decolorizing Dye Wastewater with Fenton’s Reagent.” Water. Res. 26: 881–886.
- Logothetis, N. 1992. Managing for Total Quality from Deming to Taguchi and SPC. London, UK: Prentice-Hall.
- Oguz, E., B. Keskinler, and Z. Celik. 2005. “Ozonation of Aqueous Bomaplex Red CR-L Dye in a Semi-Batch Reactor.” Dyes Pigments 64: 101–108.
- Oguz, E., and B. Keskinler. 2005. “Determination of Adsorption Capacity and Thermodynamic Parameters of the PAC Used for Bomaplex Red CR-L Dye Removal.” Coll. Surf. A 268: 124–130.
- Oguz, E., and B. Keskinler. 2007. “Comparison Among O3, PAC Adsorption, O3/HCO3−, O3/H2O2 and O3/PAC Processes for the Removal of Bomaplex Red CR-L Dye from Aqueous Solution.” Dyes Pigm. 74: 329–334.
- Oguz, E., and B. Keskinler. 2008. “Removal of Color and COD From Synthetic Textile Wastewaters Using O3, PAC, H2O2 and HCO3−.” J. Hazard.Mater. 151: 753–760.
- Phadke, M.S. 1989. Quality Engineering Using Robust Design. Englewood Cliffs, NJ: Prentice-Hall.
- Pierce, J. 1994. “Color in Textıle Effluents—The Orıgıns of the Problem.” J. Soc. Dyers Colorists. 110: 131–133.
- Pignatiello, J.J. 1988. “An Overview of the Strategy and Tactıcs of Taguchi.” Iıe Transact. 20: 247–254.
- Rice, R.G. 1997. “Applications of Ozone for Industrial Wastewater Treatment—A Review.” Ozone Sci. Eng. 18: 477–515.
- Ross, P.J. 1987. Taguchi Techniques for Quality Engineering. New York: McGraw-Hill.
- Roy, R. 1990. A Primer on the Taguchi Methods. New York: Van Nostrand Reinhold.
- Snider, H., and J.J. Porter. 1974. “Ozone Treatment of Dye Waste.” J. Water. Poll. Cont. Feder. 46: 5886–5894.
- Staehelin, J., and J. Hoigné.1982. “Decomposition of Ozone in Water: Rate of Initiation by Hydroxide Ions and Hydrogen Peroxide.” Environ. Sci. Technol. 16: 676–681.
- Standard Methods for the Examination of Water and Wastewater, 16th Edition. 1985. Washington, DC: APHA-SWWA-WPCF.
- Tabrizi, M.T.F., D. Glasser, and D. Hildebrandt. 2011. “Wastewater Treatment of Reactive Dyestuffs by Ozonation in a Semi-Batch Reactor.” Chem. Eng. J. 166: 662–668.
- Tortum, A., C. Çelik, and A.C. Aydin. 2005. “Determination of the Optimum Conditions for Tire Rubber in Asphalt Concrete.” Build. Environ. 40: 1492–1505.
- Yesilyurt, M., S. Çolak, and T. Çalban. 2005. “Determination of the Optimum Conditions for the Dissolution of Colemanite in H3PO4 Solutions.” Ind. Eng. Chem. Res. 44: 3761–3765.