전기학회논문지 (The Transactions of The Korean Institute of Electrical Engineers)

  • 제67권11호
  • /
  • Pages.1477-1485
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  • 2018
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  • 1975-8359(pISSN)
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  • 2287-4364(eISSN)
대한전기학회 (The Korean Institute of Electrical Engineers)
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하수처리 활성오니공정의 에너지 절감을 위한 퍼지 제어 방법에 관한 연구

A Study on Fuzzy Control Method of Energy Saving for Activated Sludge Process in Sewage Treatment Plant

  • Nahm, Eui-Seok (Dept. of Aviation and IT Convergence, Far East University)
  • 투고 : 2018.08.31
  • 심사 : 2018.10.10
  • 발행 : 2018.11.01
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초록

There are two major issues for activated sludge process in sewage treatment plant. One is how to make sewage be more clean and the other is the energy saving in sewage treatment process. The major monitoring sewage qualities are chemical oxygen demand, phosphorus, nitrogen, suspended solid in effluent. These are transmitted to the national TMS(Telemetry Monitoring System) at every hour. If these exceed the environmental standard, the environmental charges imposed. So, these water qualities are to be controlled below the environmental standard in operation of sewage treatment plant. And recently, the energy saving is also important in process operation. Over 50% energy is consumed in blowers and motors for injection oxygen into aeration tank. So, with the water qualities to be controlled below the environmental standard, the energy saving also is to be accomplished for efficient plant management. Almost researches are aimed to control water quality without considering energy saving. AI techniques have been used for control water quality. AI modeling simulator provided the optimal control inputs(blower speed, waste sludge, return sludge) for control water quality. Blower speed is the main control input for activated sludge process. To make sewage be more clean, the excessive blower speed is supplied, but water quality is not better than the previous. In results, non necessary energy is consumed. In this paper we propose a new method that the energy saving also is to be accomplished with the water qualities to be controlled below the environmental standard for efficient plant management. Water qualities in only aeration tank are used the inputs of fuzzy models. Outputs of these models are chemical oxygen demand, phosphorus, nitrogen, suspended solid in effluent and have the environmental standards. In test, we found this method could save 10% energy than the previous methods.

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참고문헌

  1. Lardon L, Punal A, Steyer J-P, Roca E, Lema J, Lambert S, Ratini P, Frattesi S, Bernard O. "Specifications of modular internet-based remote supervision systems for wastewater treatment plants", 15th Biennial European Conference on Artificial Intelligence, Workshop 14: Binding Environmental Sciences and Artificial Intelligence, France; 2002.
  2. Lee DS, Jeon CO, Park JM, Chang KS. "Hybrid neural network modelling of a full-scale industrial wastewater treatment process", Biotechnol. Bioeng. 78, pp. 670-682. 2002. https://doi.org/10.1002/bit.10247
  3. Standard Methods for the Examination of Water and Wastewater, American Public Health Association/ American Water Works Association/Water Environment Federation, Washington DC, USA. 1995.
  4. A. Keshtkar, B. Meyssami, G. Abolhamd, H. Ghaforian, M. Khalagi Asadi, "Mathematical modeling of non-ideal mixing continuous flow reactors for anaerobic digestion of cattle manure", Bioresource Technology, 87, pp. 113- 24, 2003. https://doi.org/10.1016/S0960-8524(02)00104-9
  5. Anderson, N. J., Dixon, P. J., Harbour, P. J., Scales, P. J., "Complete characterissation of thermally treated sludge, Water", Sci. Technol., 46(10), pp. 51-54, 2002.
  6. Bougrier C., Albasi C., Delgens J. P., Carrire H., Effect of ultrasonic, "thermal and ozone pre-treatment on waste activated sludge solubilization and anaerobic digestion", Chem. Eng. Process, 45, pp. 711-718, 2006. https://doi.org/10.1016/j.cep.2006.02.005
  7. Bougrier C., Delgens J. P. and Carrre H., "Impacts of thermal-pre-treatment on the semi-continuous anaerobic digestion of waste activated sludge," Biochemical Engineering Journal, 34, pp. 20-27, 2007. https://doi.org/10.1016/j.bej.2006.11.013
  8. Choi D.W., Lee W.G., Lim S. J., Kim B. J., Chang H. N. and Chang S. T., "Simulation on long-term operation of an anaerobic bioreactor for Korean food wastes, Biotechnol," Bioprocess Eng., 8, pp. 23-31, 2003. https://doi.org/10.1007/BF02932894
  9. Cun-fang Liu, X. Z Yuan, G. Ming Zeng, W. W. Li, J. Li, Prediction of methane yield at optimum pH for anaerobic digestion of organic fraction of municipal solid waste, Biores. technol., 99, pp. 882-888, 2008. https://doi.org/10.1016/j.biortech.2007.01.013
  10. Eskicioglu C., Droste R. L. and Kenedy K. J., "Performance of anaerobic waste activated sludge digestion by microwave pretreatment," Water Environment Research, 79(11), pp. 2265-2273, 2007. https://doi.org/10.2175/106143007X176004
  11. Garja S., Chayzy J., Fernandes P., Parria L., Cretenot D., "Enhanced anaerobic conversion of WWTP sludge: an efficient way to reduce sludge production in, 10th World Congress", Anaerobic Digestion, Montreal, Canada, 2004.
  12. Kim M., Y.H. Ahn and R.E. Speece, "Comparative process stability and efficiency of anaerobic digestion; mesophilic vs. thermophilic," Water Res., 36, 43694385. 2004.
  13. Lastella G., Testa C., Cornacchia G., Notornicola M., Voltasio F. and Sharma V. K., "Anaerobic digestion of semi-solid organic waste: biogas production and its purification", Energy Convers. Manage., 43, pp. 63-75, 2002. https://doi.org/10.1016/S0196-8904(01)00011-5