Journal of Korean Society for Atmospheric Environment (한국대기환경학회지)

Korean Society for Atmospheric Environment (한국대기환경학회)
권호 표지
DOI QR코드

DOI QR Code

Regulation Standard of Fine Particles and Control Techniques of Emission Sources

미세먼지 관리기준과 발생원별 관리방안

  • Park, Haewoo (Department of Applied Environmental Science, Kyunghee University, Center for Environmental Studies) ;
  • Jo, Young Min (Department of Applied Environmental Science, Kyunghee University, Center for Environmental Studies)
  • 박해우 (경희대학교 환경응용과학과, 환경연구센터) ;
  • 조영민 (경희대학교 환경응용과학과, 환경연구센터)
  • Received : 2013.06.18
  • Accepted : 2013.07.29
  • Published : 2013.08.31
Download PDF
⟨ Previous Next ⟩

Abstract

This paper has comprehensively reviewed fine dust control technology from emission sources. Owing to the stringent national regulation, domestic industries have made consistent efforts to develop the high efficiency facilities since 1960s. In these days, harmful particulate pollutants including dioxins and PAHs as well as $PM_{2.5}$ are also of critical interests in government and civic groups. In addition, simultaneous treatment of gas and particles is being widely studied. It is believed that hybrid facilities which integrate a few advanced equipment may meet the atmospheric guidelines.

Keywords

References

  1. Alstom (2009) Environmental Services and replacement Parts.
  2. Anderson, H.R. (2009) Air Pollution and mortality : A history, Atmospheric Environment, 43, 142-152. https://doi.org/10.1016/j.atmosenv.2008.09.026
  3. Andrei, B., R.P. Hanns, S. Helmut, and W. Klaus (2012) Fine Particle generation evolution and control by small biomass combustion, J. Manage. Environ. Quality, 23(1), 36-55. https://doi.org/10.1108/14777831211191584
  4. Ansan Environmental Technology Development Center (2000) Optimization of operation and process of incineration facilities for industrial wastes, 65-96.
  5. Bae, I.S., I.S. Kim, J. Kweon, S.W. Eom, and J.Y. Lee (2012) Characteristics of Dioxins Level according Particle Size Distribution of Dust in the Ambuent Air of Seoul, Proceeding of the 55th Meeting of KOSAE, Seoul, Paper No. PB19, 116.
  6. Burford M.D., B. Steven. and J.D. Miller (1993) Extraction of spiked versus native PAH from heterogeneous environmental samples using supercritical fluid extraction and sonication in dichloromethane, Anal. Chem., 65. 1497-1505. https://doi.org/10.1021/ac00059a003
  7. Cho, Y.J., M.H. Jeong, J.M. Jeon, and B.S. Son (2009) A Study on the Concentration of Fine Particles and Heavy Metals in Iron Works, J. Korean Soc. Environ., 401-409. https://doi.org/10.5322/JES.2009.18.4.401
  8. Cooper, C.D. and F.C. Alley (2002) Air Pollution Control-A Design Approach, 3rd Ed., Waveland Press Inc., U.S.A., 99-238pp, 547-561pp.
  9. Environmental glossarist (1996) Environmental engineering terminology dictionary, Sungandang.
  10. Gong, S.Y. (1998) Management plan for pre pollutant reduction at emission source - pocus on optimum prevent facilites, Korea Environment Institute, 20-25.
  11. Han, B.I. (2002) Domestic waste incineration facility's condition and development process, Architecture & Urban Research Information Center, 39-51.
  12. Heo, J.B., B.R. Choi, K.S. Kim, and S.M. Yi (2008) Association of Fine Particulate Matter (PM2.5) from Different Sources with Daily Mortality in Seoul, Korean J. of Atmos. Environ., 188-190.
  13. Hong, J.H. (2002) Fine dust control in industriacl faiclities (ESP/Filter), Air Purification Tech., 54-66.
  14. Hong, S.B., S.H. Kang, W.H. Kim, Y.P. Kim, S.M. Yi, Y.S. Ghim, S.H. Song, S,H. Jung, and J.H. Hong (2009) PAHs Concentrations of PM10 in Seoul Metropolitan Area, J. Korean Soc. Environ., 25(4) 347-259. (in Korean with English abstract) https://doi.org/10.5572/KOSAE.2009.25.4.347
  15. Jang, J.H., J.H. Lee, and Y.M. Jo (2008) Simultaneous Control of Dust and Gases Using a Double Centrifugal Device, Korean J. of Atmos. Environ., 24(3), 336-345. (in Korean with English abstract) https://doi.org/10.5572/KOSAE.2008.24.3.336
  16. Kim, H.K. (2002) Analysis of Environmental policy in US and KOREA, Reformation of Environmental Legislation, 22, 401-402.
  17. Kim, J.B., W.K. Lee, and Y.J. Shim (2000) A Basic Study on the Effective Management for MSWI Fly Ash (II)- Effect of Leaching Parameter, J. Korean Soc. Environ. Eng., 22, 1357-1364. (in Korean with English abstract)
  18. KNA Environment Forum (1999) Korea's environmental conversion measure 21 for A.D. 2000, 206-216.
  19. Korea Environment Institute (1994) Plan for countermeasure research of hazardous air pollutant restriction, 252-254.
  20. Korea institute of machinery & materials (2003) The Trend and Prospect of Diesel After treatment Technology.
  21. Korea power exchange (2011) power plant current situation 2010.
  22. Kvestoslav R. Spurny (1998) Advances in aerosol filtration., lewis publishers., U.S.A., 4-6pp.
  23. Lapple, C.E. (1961) Processes Use Many Collector Types, Chemical Engineering, 58(5), 687-692.
  24. Lee, T.J., J.B. Huh, S.M. Yi, S.D. Kim, and D.S. Kim (2009) Estimation of PM10 Source Contributions on Three Citiesin the Metropolitan Area by Using PMF Model, J. of Atmos. Environ., 25(4), 275-288. (in Korean with English abstract)
  25. Lee, W.C., J.I. Dong, S.P. Hong, S.H. Kim, and P.M Park (2012) 2012 Proceeding of the 54th Meeting of KOSAE Seoul, Paper No. PA11. 62.
  26. Lim, Y.U., W.Y. Sun, Y.J. Lee, H.J. Kim, and M.S. Park (2009) Health Risk Assessment of PM Reduction from Diesel Particulate Filter., Korean J. of Atmos. Environ., 541-542.
  27. Ministry of environment (1997) 97 Environment white paper.
  28. Ministry of environment (2006) Development of Fine Particulate Collection Equipment Using Ceramic Cake - Fine Dust Removal Technology, 63.
  29. Ministry of environment (2008) System Technology for New Type of Advanced Hybird Particulate Collector, 62-63.
  30. Ministry of environment (2009) Management tips for scattering dust at cement workplace, 3-29.
  31. Ministry of environment (2012) 2011 Condition of investment for Environmental pollution prevention facilities.
  32. Ministry of environment statics (2010) Environmental statics yearbooks - The Number of Vehicle Registered by kind, 391.
  33. Myung, S.Y. (2006) Advanced Engineer Wastes Treatment, Namyangmoonhwa (9), 47-48.
  34. National institute of environmental research (2007) A Study of Monitoring Method on Exposure Level and Biomarkers of Environmental Pollutants (Gwangyang).
  35. National Institute of Environmental Research (2010) A Health Survey on Residents Living near a Cement Plant or Limestone Mines in Yeongwol City 2009.
  36. National Institute of Environmental Research (2012) A Health Survey on Residents Living near a Cement Plant or Limestone Mines in Jecheon City & Danyang City 2011.
  37. National Institute of Environmental Research (2012) Emission Sources and Behavior of $PM_{2.5}$ Organic Materials (III), 32-33.
  38. Oh, J.M., Y.M. Jo, M.H. Kim, U.M. Kwon, I.S. Choi, I.J. Hwang, J.S. Kim, and J.Y. Park (2004) Men and Environment, Hyungsul Publish, 138-143pp.
  39. Oh, M.S., S.S. Yang, T.J. Lee, and D.S. Kim (2008) Quantitative Source Apportionment of Size-resolved Atmospheric Aerosols on the Area of Yongin-Suwon Border, Proceeding Of the 46th Meeting of KOSAE, Seoul, Paper No. PB4. 490-492.
  40. Park, C.H., S.W. Song, Y.M. Lee, W.J. Heo, J.H. Kim, G.B. Kim, D.S. Kim, S.D. Yu, and Y.H. Chung (2008) Health Effect of Exposure to Airborne Asian Dust and Ultrafine Particle, 90-104.
  41. Park, J.S., S.K. Yoon, and W.K. Bae (2010) Distribution and emission source of PAHs in ambient air of Seoul, J. Korean Analy. Sci & Tech., 23(3), 269-277. (in Korean with English abstract) https://doi.org/10.5806/AST.2010.23.3.269
  42. Park, Y.O. (2007) New dust filtration, Korean Facility Engineering, 4-12.
  43. Park, Y.O (2012) Technique trend of Gas Turbine Intake Air Filter System's Depth Cartridge Filter In Combined Cycle Power Plant, Air Cleaning Technology, 25(3), 16-28.
  44. Plomp, A. M.I.L Beuner and A. Hoffmann (1996) Post cyclone. an approach to a better efficiency of dust cyclones, Korean J. of Aerosol Sci., 27, 631-S632. https://doi.org/10.1016/0021-8502(96)00388-6
  45. POSCO (2003) Pocso environmental report.
  46. Roger, D.G. (2006) Principles of Air Quality Management, 2nd ED., Taylor & Francis., U.S.A., 76-99pp.
  47. Schwartz, J., G. Norris, T. Larson, L. Sheppart, C. Claiborne, and J. Koenig (1999) Episodes of high coarse particle concentrations are not associated with increased mortality, Environ Health Perspect, 107, 339-342. https://doi.org/10.1289/ehp.99107339
  48. Shin, O.J. (2010a) The Research on Modification Various Laws and Regulations for Developed Standard of Environmental Regulation, Korea Legislation Research institute, 129-131.
  49. Shin, Y.T. (2010b) A study on dust removal system and optimal operation of a reverse air fabric filter bag house, Incheon University.
  50. Song, S.H., D.Y. Paek, Y.M. Lee, C.W. Lee, C.H. Park, and S.D. Yu (2012)Ambient Fine and Ultrafine Particle Measurements and Their Correlations with Particulate PAHs at an Elementary School Near a Highway, J. Asian of Atmos. Environ., 6(2) 96-103. https://doi.org/10.5572/ajae.2012.6.2.096
  51. Van. Vaeck L., K.V. Cauwenberghe, and J. Janssens (1984) The gas-particle distribution of organic aerosol constituents : measurement of the volatilisation artefact in Hi-Vol cascade impactor sampling, J. Atmos. Environ., 18(2), 417-430. https://doi.org/10.1016/0004-6981(84)90117-3
  52. Yu, S.D. and W.P. Hong (2012) A Study on the Effects of Rine Particles to Satellite Signal. Korean J. Electron. Comm. Scie., 7(1), 125-134. (in Korean with English abstract)

Cited by

  1. fine particulate matter for Asian dust and haze events of 2010-2011 at Gosan site in Jeju Island vol.27, pp.1, 2014, https://doi.org/10.5806/AST.2014.27.1.1
  2. Analysis of dust emission characteristic by drop impact on decomposed granite soil vol.56, pp.3, 2014, https://doi.org/10.5389/KSAE.2014.56.3.039
  3. Composition Variation of Atmospheric Fine Particulate Matters in Accordance with Air Mass Transport Pathways at Background Site of Korea in 2013 vol.31, pp.1, 2015, https://doi.org/10.5572/KOSAE.2015.31.1.015
  4. Size Distribution Characteristics of Water-soluble Ionic Components in Airborne Particulate Matter in Busan vol.31, pp.3, 2015, https://doi.org/10.5572/KOSAE.2015.31.3.287
  5. Performance Evaluation for Fast Conversion from Urea to an Ammonia Conversion Technology with a Plasma Burner vol.32, pp.5, 2016, https://doi.org/10.5572/KOSAE.2016.32.5.526