Journal of Environmental Science International (한국환경과학회지)

The Korean Environmental Sciences Society (한국환경과학회)
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Comparison of Aerobic Fixed-film Process Response to Quantitative and Hydraulic Shock for the Same Increases in Mass Loading

호기성 고정생물막반응기에서 동일 질량부하의 수리학적 및 농도충격부하시 반응의 비교

  • Ahn, Mee-Kyung (Dept. of Environ, Eng., Pusan National University.) ;
  • Lee, Kyu-Hoon (Dept. of Environ, Eng., Pusan National University.) ;
  • Published : 1994.09.01
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Abstract

The objective of this study was to examine and compare to transient response to quantitative and hydraulic shocks which produce equal changes in mass rate of organic feed in aerobic fixed-film process. The general experimental approach was to operate the system at several growth rates under steady-state(pre-shock) conditions, then to apply step changes during day 3 in dilution rate(hydraulic shock) , or feed concentration(Quantitative shock) at the same organic mass loading rate. Performance was assessed in both the transient state and the new steady-state (post- shock). Shock load of different type did not produced equivalent disruptions of effluent quality for equal increases in mass loading rate. Based on effluent concentrations, a hydraulic and a Quantitative shock at the same mass loading caused equal increase in total effluent COD, but the increase was primarily a result of suspended solids the hydraulic shock and COD in the quantitative shock. The time which effluent COD came to peak values were about 32~48 hours at the low organic loads and 52 ~ 72 hours at the high organic loads, respectively A quantitative shock produced a much greater increase in effluent COD than did a hydraulic shock at the same mass loading. Mean and peak values of effluent concentration weve increased in 2.8~4.2 times at low organic loading rate, 5.2~6.6 times at the high organic loading rate, respectively. Key words : Aerobic fixed-film reactor, Quantitative shock, hydraulic shock, mass loading rate.

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References

  1. Proc.Am.Sec.Civ.Eng. v.96 Response of Activated Sludge to Organic Transient Loadings. J.Sann,Eng.Div. Adams,C.E.;W.W.Eckenfelder,
  2. Standard Methods for the Examination of Water and Wastewater(18th ed.) APHA;AWWA;WPCF
  3. Water Pollution Control/ v.69 High-rate Biofiltration : Past and Future Askew,M.M.
  4. Proceedings of the 1st International Conf. on Fixed-Film Biological Process Development of Synthetic Media for Biological Treatment of Municipal and Industrial Wastewaters Bryan,E.H.
  5. J.WPCF. v.44 Performance of Plastic Filter Media in Industrial and Domestic Waster Treatment Chipperfield,N.P.
  6. Water SA. v.3 The Effect of Toxic Loads Effluent Purification System Cillie,G.G.
  7. J.Environ.Eng.Div. v.104 Shock Load Attenuation, Trickling Filter Cook,E.E.;L.P.Herning,
  8. Water Conf. A Theoretical Study of Activated Sludge Transient Resp once, Proceedings, 26th Purdue Ind. Gaudy,C.P.L.
  9. J.WPCF. v.57 Comparison of Activated Sludge Response to Quantitative, Hydraulic, and Compined shock for the Some increases in Mass loading Manickam,T.S.;A.F.Jr.Gaudy,
  10. Waste Conf. Hydraulic Process Aspects of Reactor Design II. - Response to Variations, Proceedings 24th Purdue Ind. McLellan,J.C.;A.W.Bush,
  11. J.WPCF v.57 Response of Phenol-Acclimated Activated Sludge Process to Quantitative Shock Loading Rozich,A.F.;A.F.Jr.Gaudy,
  12. J.WPCF v.51 Shock Load Response of Activated Sludge Operated at Constant Recycle sludge Concentration Saleh,M.M.;A.F.Gaudy,
  13. Wat.Res. v.27 Determination of Organic Loading Rate of Activated sludge Plant, Based on Protozoan Analysis Salvado,M.;N.P.Gracia,