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활어수조에서 포말분리에 의한 오염물 제거시 수력학적 체류시간 영향

Effect of Hydraulic Residence Time on the Removal of Wastes in a Seawater Aquarium using a Foam Separator


The effect of the hydraulic residence time (HRT) for the removal of aquarium waste, such as protein, total suspended solids (TSS) and turbidity were investigated by using a foam separator Protein, TSS and turbidity removal efficiencies were increased with the increase of hydraulic residence time. The optimum hydraulic residence time was 0.5 min, and the highest protein and TSS removal rates were $14.4\;g/L{\cdot}day\;and\;38.9\;g/L{\cdot}day,$ respectively. The tendency of turbidity removal rate and efficiency was similar to that of protein.

참고문헌 (19)

  1. APHA, AWWA and WPCF. 1992. Standard Method for the Examination of Water and Wastewater. 16th ed., American Public Health Association Inc., New York, pp. 132-133 
  2. Bhattacharjee, S., R. Kumar and K.S. Gandhi. 2001. Modeling of protein mixture separation in a batch foam column. Chem. Eng. Sci., 56, 5499-5510 
  3. Brown, A.K., A. Kaul and J. Varley. 1999. Continuous foaming for protein recovery. Biotechnol. Biochem. Eng., 62(3), 278-290 
  4. Chen, S. 1991. Theoretical and experimental investigation of foam separation applied to aquaculture. Ph.D. Thesis, Cornell Univ., Ithaca, New York, USA, pp. 231 
  5. Chen, S., D. Stechy and R.F. Malone. 1996. Suspended Solids Control in Recirculating Aquaculture Systems. In: Aquaculture Water Reuse System: Engineering Design and Management. Timmons, M.B. and T.M. Losordo eds. Elsevier, Amsterdam, pp. 61-100 
  6. Kim, B.J., K.H. Suh, S.H. Bong, J.H. Lim, Y.H. Kim and S.K. Kim. 2000. The removal of aquacultural wastes by foam separator from sea water - I. The effect of initial protein concentration. J. Kor. Inst. Chem. Eng., 38(5), 745-752. (in Korean) 
  7. Kim, S.K., I.Y. Jeong, J.K. Seo and M.R. Kim. 2000. Abstract, Autumn Joint Meet. Kor. Soc. Fish. Sci., pp. 150-151. (in Korean) 
  8. Landman, M.J. and M.R. van den Heuvel. 2003. An improved system for the control of dissolved oxygen in freshwater aquaria. Water Res. 37, 4337-4342 
  9. Lowry, O.H., N.J. Rosebrough, A.L. Farr and R.J. Randall. 1951. Protein measurement with the Folin phenol reagent. J. Biol. Chem. 193, 265-275 
  10. Park, S.I., S.K. Kim and J.C. Kang. 1999. The development of filter for environmental improvement in land based seawater fish farm 3. Purification efficiency of rearing seawater by screen filter and ultraviolet. J. Kor. Fish. Soc., 32(4), 501-506. (in Korean) 
  11. Phillips, L.G., S.E. Hawks and J.B. German. 1995. Structural Characteristics and Foaming Properties of .beta.-Lactoglobulin: Effects of Shear Rate and Temperature. J. Agric. Food Chem., 43(3), 613-619 
  12. Rijn, J.V. 1996. The potential for integrated biological treatment system in recirculating fish culture. Aquaculture, 139, 181 
  13. Saleh, Z.S. and M.M. Hossain. 2001. A study of the separation of proteins from multicomponent mixtures by a semi-batch foaming process. Chem. Eng. Process., 40, 371-378 
  14. Suh, K.H., B.J. Kim, S.K. Kim, Y.H. Kim, G.B. Lee and J.H. Lim. 2001. The removal of aquacultural wastes by foam separator from seawater-II. The effect of hydraulic residence time. J. Kor. Inst. Chem. Eng., 39(2), 237-244. (in Korean) 
  15. Suh, K.H., M.K. Lee, M.S. Lee, B.J. Kim, Y.J. Kim and M.C. Jo. 1997. Treatment of aquacultural recirculating water by foam separation-II. Characteristics of solid removal. J. Kor. Fish. Soc., 30(3), 334-339. (in Korean) 
  16. Suzuki, Y. and T. Maruyama. 2002. Removal of suspended solids by coagulation and foam separation using surface-active protein. Water Res., 36(9), 2195-2204 
  17. Suzuki, Y., T. Maruyama, H. Numata, H. Sato and M. Asakawa. 2003. Performance of a closed recirculating system with foam separation, nitrification and deni- trification units for intensive culture of eel- towards zero emission, Aquacult. Eng., 29(3), 165-182 
  18. Tchobanoglous, G. and E.D. Schroeder. 1985. Water Quality, Addison-Wesley Publishing Company, California, pp. 56 
  19. Van der Geest, H.G., W.J. Soppe, G.D. Greve, A. Kroon and M.H.S. Kraak. 2002. Combined effects of lowered oxygen and toxicants (copper and diazinon) on the mayfly ephoron virgo. Environ. Toxicol. Chem., 21(2), 431-436 

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