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Environmental Technology Research Network
in the Asia-Pacific Region

DB for Research Project
Category(1) : Wastes
Category(2) : Modeling


  1. Project Name
  2. Duration
  3. Research Catagory 1
  4. Research Catagory 2
  5. Research Field
  6. Researchers
  7. Affiliation 1
  8. Affiliation 2
  9. Address
  10. Country
  11. Phone
  12. Fax
  13. Project Summary
  14. Publications
  15. International Joint Study with

Korea Institute of Energy Research(KIER), Korea

  1. Recovery of energy from wastes (Development of the oil recovery from waste-water sludge by using high pressure liquefaction technology)
  2. 1994-1996
  3. waste, energy
  4. reaction mechanism, modeling, countermeasures
  5. engineering
  6. Ho-Tae Lee,
  7. Energy Conversion Research Department
  8. KIER
  9. 71-2 Jang-dong Yousung-Ku, Taejon, 305-343
  10. KOREA
  11. 82-42-860-3662
  12. 82-42-860-3302
  13. energy recovery and utilization of wastes like sewage sludge, plastics, etc.
  1. Recovery of energy from wastes (Development of the oil recovery from waste-water sludge by using high pressure liquefaction technology)
  2. 1994-1996
  3. waste
  4. reaction mechanism, modeling, countermeasures
  5. engineering
  6. Ho-Tae Lee
  7. Energy Conversion Research Department
  8. KIER
  9. 71-2 Jang-dong Yousung-Ku, Taejon, 305-343
  10. Korea
  11. 82-42-860-3662
  12. 82-42-860-3302
  13. energy recovery and utilization of wastes like sewage sludge, plastic, etc.
  1. Coprocessing of waste plastics and waste oil into high quality fuel oils
  2. 1996-1998
  3. wastes
  4. modelling
  5. engineering
  6. Yoon, W.L., Lee, H.T., Jung, H., Park, J.S., Hwang Y.J.
  7. Energy conversion department
  8. KIER
  9. 71-2, Jangdong, Yusonggu, Taejeon
  10. Korea
  11. 82-42-860-3660
  12. 82-42-860-3302
  13. This study is aimed at optimizing both the oil quality and yields from the coprocessing of waste oil and waste plastics. Under optimum reactions, the stability of our own conceptual process will be steadily tesed to see if there exists any problems in continuous processing. After the completion of the stability test, the conceptual process will be scaled-up for the pilot plant studies.
  14. 1) Lee, D. K., Yoon, W. L., Lee, I. C. and Woo, S. I., "Residual oil hydrodesulfurization using dispersed catalysts in a carbon packed trickle bed reactor", Energy & Fuels, 9, 2(1995)
    2) Yoon, W.L., Lee, D. K. and Lee, I.C., "Liquefaction of Alaskan Usibelli subbituminous coal using oil soluble metal naphthenates as catalyst precursors", accepted in Fuel journal
    3) Kim, C. H., Yoon, W. L., Lee, I.. C. and Woo, S. I., "The effect of Ni loading and the sulfidation temperature on the structure and catalytic activity of Ni-W hydrodesulfurization catalysts, accepted in Applied Catalyis journal