Abstract
A bench-scale laboratory study was conducted to determine the performance of the single-stage treatment system of powdered activated carbon activated sludge reactors and the two-stage treatment system using activated sludge reactors followed by the biological activated carbon columns. Two activated sludge reactor runs and two biological activated carbon (BAC) column runs were conducted in this study. Hydraulic detention time in the aeration tank was 8, 16, and 32 hours for the activated sludge reactor runs. In run 2,4 g/1 of powdered activated carbon (PAC) were added to the activated sludge reactors to improve organic pollutant removal. The feed COD (chemical oxygen demand) was from 2668 to 3309 mg/1. For the BAC runs, the hydraulic detention time varied from 0.288 to 4.034 hours. Results indicate that 92% of COD was removed in the non-PAC activated sludge reactors, while 96% of COD was removed in the PAC activated sludge reactors. Biomass accumulation in the BAC columns improved the COD removal. Effluents from BAC columns contained 34 to 95 mg/1 COD. The two-stage treatment system of activated sludge followed by BAC process had better treatment performance than the single-stage treatment system of PAC activated sludge process.
Compendio
Se condujo un estudio de laboratorio a escala de mesa, para determinar la eficacia del sistema de tratamiento de una etapa, de carbón activado en polvo-reactores de lodo activado y el sistema de tratamiento en dos etapas utilizando reactores de lodo activado y a continuación columnas de carbón biológico activado. Dos series de reactores de lodo activado y dos series de columnas de carbón biológico activado (BAC) fueron conducidas en este estudio. El tiempo de detención hidraúlica en el tanque de aereación fue de 8,16, y 32 horas para las series de reactores de lodo activado. En la serie 2, se agregaron a los reactores de lodo activado 4 g/1 de carbón activado en polvo (PAC) para mejorar la remoción de los polucionantes orgánicos. El suministro por demanda química de oxígeno (COD) fue de 2 668 a 3 309 mg/1. Para las series BAC, el tiempo de detención hidraúlica varió de 0,288 a 4,034 horas. Los resultados indican que 92% de la COD fue substraída de los reactores de lodo no activados con PAC, mientras que en los reactores de lodo activado con PAC, 96% de la COD fue utilizada. El sistema de tratamiento en dos etapas, lodo activado y a continuación el proceso BAC, fue más eficaz que el sistema de tratamiento de una etapa, lodo activado con carbón activado en polvo.
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Literature Cited
American Public Health Association, 1976. Standard Methods for the Examination of Water and Wastewater, 14th edition.
Armstrong, T.D. and B.I. Boyko. 1969. Treatment of Potato processing wastes in Salada Foods Limited, Alliston. Proc. 16th Ontario Industrial Waste Conf. Niagara Fall, Ontario.
Dostal, K.A. 1969. Secondary treatment of potato processing wastes. EPA Water Pollution Control Research Series 12060 07/69.
Fossum, G.O., A.M. Cooley and G.D. Wahl. 1964. Stabilization ponds receiving potato wastes with domestic sewage. Proc. 19th Industrial Waste Conf., Purdue Univ., Lafayette, Indiana, pp. 96–111.
R.T. French Company 1970. Aerobic secondary treatment of potato processing wastes. EPA Water Pollution Control Research Series, 12060 04/70.
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Shih, J.KC., Hung, YT. Biological treatment of potato processing wastewaters. American Potato Journal 64, 493–506 (1987). https://doi.org/10.1007/BF02853717
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DOI: https://doi.org/10.1007/BF02853717