Journal of Environmental Science International (한국환경과학회지)

The Korean Environmental Sciences Society (한국환경과학회)
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Removal Efficiency Study of Aromatic Hydrocarbons Using a High-Temperature Fiber Filter on a Laboratory Scale

실험실 규모에서 고온 섬유 여과재를 이용한 방향족 유기화합물 제거 특성 조사

  • Published : 1999.08.01
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Abstract

The purpose of this study was to investigate the characteristics of removal efficiency for aromatic hydrocarbons using a high-temperature fiber filter on a laboratory scale. The main elemental compositions of a high-temperaure fiber filter are aluminium and silica, which can act as the catalysts. Benzene, toluene and o-xylene among aromatic hydrocarbons were used in this experiment. For 3cm thickness of fiber filter, these compounds were removed more than 90% at the face velocities of 3cm/sec and 5cm/sec above 45$0^{\circ}C$. For 4cm thickness of it, the removal efficiencies of these compounds were almost 90% from 40$0^{\circ}C$ at the same face velocities, suggesting that it may be due to increasing the contact time between the fiber filter and aromatic hydrocarbons. The pressure droop ranged from 22 to 48mmH2O for 3cm thickness of fiber filter. However, for 4cm thickness of it, it was about two times(41~89mm$H_2O$) higher than that for 3cm fiber thickness.

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References

  1. An exposure and risk assessment for Benzo(a)pyrene and other polycyclic aromatic hydrocarbons : Volume III. Anthracene, Acenaphthylene, Fluoranthene, Fluorene, Phenanthrene and Pyrene Byrne, M.;S. Coons;M., Goyer;J. Harris;J. Perwak;P. Cruse;R. DeRosier;K. Moss;S. Wendt
  2. Threshold limit values for chemical substance and physical agents and biological exposure indices American Conference of Governmental Industrial Hygienists(ACGIH)
  3. 대기환경보전법, 1996 환경부
  4. 공기청정기술 v.42 VOCs 처리기술 박상언;장종산;노현석;전명원
  5. Russian Chemical Industry v.26 no.6 Thermocatalytic decontamination of polycyclic and polychlorinated aromatic compounds Zaitsev, V.A.;A.G. Aryanian;K.A. Akhrameev;E.V. Kalinin;V.A. Kuznetsova;V.A. Prokhorov;A.Yu. Suleimanov
  6. Catalytic air pollution control: Commercial technology Heck, R.M.;R.J. Farrauto
  7. the 86th Annual Meeting of AWMA Development of a two-phase receptor model for NMHC and $PM_{10}$ air pollution sources in Chicago Lin, J.;P.A. Scheff;R.A. Wadden
  8. SKC comprehensive catalog & air sampling guide SKC
  9. J. Air Waste Manage. Assoc. v.40 no.7 Operating history and current status of fabric filters in the utility industry Cushing K.M.;R.L. Merritt;R.L. Chang
  10. Air pollution control : a design approach Cooper, C.D.;F.C. Alley
  11. J. Air Poll. Control Assoc. v.33 no.10 Second conference on fabric filter technology for coal-fired power plants : Conference summary Carr, R.C.