TREATMENT OF A HIGH STRENGTH ACIDIC INDUSTRIAL CHEMICAL WASTEWATER USING EXPANDED BED ADSORBER

محتوى المقالة الرئيسي

Sawsan A. M. Mohammed
Sarmad Foad
Haider Abbas Shanshool

الملخص

Treatment of a high strength acidic industrial wastewater was attempted by activated carbon
adsorption to evaluate the feasibility of yielding effluents of reusable qualities. The experimental
methods which were employed in this investigation included batch and column studies. The
former was used to evaluate the rate and equilibrium of carbon adsorption, while the latter was
used to determine treatment efficiencies and performance characteristics. Fixed bed and expanded
bed adsorbers were constructed in the column studies. In this study, the adsorption behavior of acetic acid onto activated carbon was examined as a function of the concentration of the adsorbate, contact time and adsorbent dosage. The adsorption data was modeled with Freundlich and Langmuir adsorption isotherms.The amount of acetic acid adsorbed increased with the decrease in initial concentration of acetic acid and increased with the increase in contact time and adsorbent dose. The effects of various
important and influencing parameters such as flow rate, bed height, inlet adsorbate concentration
on breakthrough curve are studied in details in the column studies.

تفاصيل المقالة

كيفية الاقتباس
"TREATMENT OF A HIGH STRENGTH ACIDIC INDUSTRIAL CHEMICAL WASTEWATER USING EXPANDED BED ADSORBER" (2011) مجلة الهندسة, 17(01), ص 103–115. doi:10.31026/j.eng.2011.01.08.
القسم
Articles

كيفية الاقتباس

"TREATMENT OF A HIGH STRENGTH ACIDIC INDUSTRIAL CHEMICAL WASTEWATER USING EXPANDED BED ADSORBER" (2011) مجلة الهندسة, 17(01), ص 103–115. doi:10.31026/j.eng.2011.01.08.

تواريخ المنشور

المراجع

Adamson A.W., 1960, Physical Chemistry of Surface, Inter Science Publ. Inc., New York, pp. 777.

• Alessandra F. Freitas, Bruno B. França, Marisa F. Mendes and Gerson L.V. Coelho, 2005” Thermodynamic Studies of Acetic Acid Adsorption onto Activated Carbon” 2nd Mercosur Congress on Chemical Engineering ,4th Mercosur Congress on Process Systems Engineering, Brazil.

• Annadurai G and Krishnan M.R.V., 1996 “Adsorption of Basic Dye Using Chitin”, Indian J.Environ. Protec., 16(6), pp.444-449.

• B.V. Babu, S. Gupta, 2004 “Modeling and Simulation for Dynamics of Packed Bed Adsorption”, Proceedings of

International Symposium & 57th Annual Session ofIIChE in association with AIChE, Mumbai, December 27-30.

• Benkhedda, J., Jaubert, J.N., Barth, D., Perrin, L., Baily, M., 2000”Adsorption Isotherms of m- Xylene on Activated Carbon:

Measurements and Correlation with Different Models”, J.Chem. Thermodymamics, 32, pp. 401-411.

• Ganguly S. K. and Goswami A. N., 1996, ” Surface Diffusion Kinetics in the Adsorption of Acetic Acid on Activated Carbon”, Separation Science and Technology, Vol. 31, Issue 9 , pp. 1267 – 1278.

• Ju-Cbang Huang and Michael G. Hardie, 1971” Water Reclamation by Physiochemical Treatment of Wastewater”, Water Resources Bulletin, Vol. 7, N0. 1, pp.148-161.

• Kannan N. and Xavier A., 2001 “New Composite Mixed Adsorbents for the Removal of Acetic Acid by Adsorption from Aqueous Solution- A Comparative Study”, Toxic. Env. Chem., 79, pp.95-107.

• Kannan, N. and Murugavel, S., 2008 “Comparative Study on the Removal of Acid Violet by Adsorption on Various low Cost Adsorbents”, Global NEST Journal, Vol. 10, No 3, pp 395-403.

• McCabe, W.E., Smith J.C., and Harriott, P., 2001, Unit Operation of Chemical Engineering, McGraw Hill, New York.

• McKay G., 1983” The adsorption of Dyestuff from Aqueous Solution Using Activated Carbon: Analytical

Solution for Batch Adsorption Based on External Mass Transfer and Pore Diffusion”, Biochem. Eng. J., 27, pp.187-194.

• Ghosh, P.K. and Philip, L., 2005” Performance Evaluation of Waste Activated Carbon on Atrazine Removal from Contaminated Water”, Journal of Environmental Science and Health Part B, pp.425– 441.

• Corrêa R. A., Calçada L. A. and Peçanha R. P., 2007, “Development of a Fluidized Bed System for Adsorption of Phenol from Aqueous Solutions with Commercial Macroporous Resins”, Brazilian

Journal of Chemical Engineering ,,Vol. 24, No. 01, pp. 15 – 28.

• Ramaswamy, E., Sirinivasakannan, C. and Balasubramaniam, N., 2008,”Bed Expansion Characteristics of Liquid-Solid

Fluidized Bed with Internals”, Modern Applied Science, 2(2), pp 84-92.

• Ramu, N. Kannan and S.A. Srivathsan , 1992. “Adsorption of Carboxylic Acids on Fly Ash and Activated Carbon”, Indian J.

Environ. Hlth., Vol. 34, No. 3, 192-199.

• Shahavi, M. H., Najafpour, G. D. and Jahanshahi, M., 2008 “Hydrodynamic Behavior and Biochemical Characterization of a Simple Custom Expanded Bed Column for Protein Purification “, African Journal of Biotechnology Vol. 7 (23), pp. 4336-4344.

• Volesky, B. & Prasetyo, I., 1994”Cadmium Removal in a Biosorption Column” Biotechnol. Bioeng. 43, pp.1010-1015.

• Weber, W. J. and Chakravorti, R. K., 1974, “Pore and Solid Diffusion Models for Fixed-Bed Adsorbers”, J. Am. Inst. Chem. Eng. 20, pp. 228-238.

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