DOI QR코드

DOI QR Code

Comparison on the Releasing Characteristics of Asbestos Fiber from Plant Slate Roof and House Slate Roof

공장과 주택 슬레이트지붕의 석면 노출특성 비교

  • Jeong, Jae-won (Busan Metropolitan City Institute of Health and Environment) ;
  • Yoo, Eun-chul (Busan Metropolitan City Institute of Health and Environment) ;
  • Lee, Sang-Jonn (Institute of Environmental Studies, Pusan National University) ;
  • Park, Geun-Tae (Department of Nanomaterials Engineering, Pusan National University)
  • 정재원 (부산광역시보건환경연구원) ;
  • 유은철 (부산광역시보건환경연구원) ;
  • 이상준 (부산대학교 환경연구소) ;
  • 박근태 (부산대학교 나노소재공학과)
  • Received : 2015.03.05
  • Accepted : 2015.04.01
  • Published : 2015.07.31

Abstract

This study was performed to identify and quantify the asbestos fibers released from two types of asbestos-cement slate roofs. One is a plant roof installed in 1987 which contained 15% chrysotile, and the other is a residential roof installed before 1983 which contained 12% chrysotile. The concentrations of asbestos fibers in air surrounding asbestos-cement slate roofs and in the falling water harvested from the same roofs on rainy days ranged from 0.0012 to 0.0018 f/mL and from 1,764 f/L to 10,584 f/L, respectively. The concentration of inorganic fibers in the soil around asbestos-cement slate roofs was from 217 to 348 f/g. With the above results, the excess lifetime cancer risk (ELCR) for the risk assessment of the asbestos fibers released from asbestos-cement slate based on US EPA IRIS (Integrated risk information system) model is within 5.5E-06 ~ 6.5E-06 levels which indicates that the levels do not exceed "the acceptable risk(1.0E-05)" recommended by WHO. The asbestos concentration in air, drained rainfall and soil around the plant slate roof was higher than that around residential slate roof, but the excess lifetime cancer risk (ELCR) from residential slate was higher than that from plant slate. This suggested that the enclose and encapsulation of residential roofs have priority in removal policy to minimize the exposure risk.

Keywords

References

  1. Bassani, C., Cavalli, R. M., Cavalcante, F., Cuomo, V., Palombo, A., Pascucci, S., Pignatti, S., 2007, Deterioration status of asbestos-cement roofing sheets assessed by analyzing hyperspectral data, Remote Sensing of Environment, 109, 361-378. https://doi.org/10.1016/j.rse.2007.01.014
  2. BIHE(Busan Metropolitan City Institute of Health & Environment), 2011, The Annual Report of Busan metropolitan City Institute of Health & Environment, 21(2), 240-260.
  3. Busan metropolitan city, 2011, The report of total inspection for slate roofing in Busan.
  4. Busan metropolitan city, 2013, The 2013 report of total inspection for slate roofing in Busan.
  5. Dias, C. M. R., Cincotto, M. A., Savastano Jr., H., John, V. M., 2008, Long-term aging of fiber-cement corrugated sheets-The effect of carbonation, leaching and acid rain, Cement & Concrete Composites, 30, 255-265. https://doi.org/10.1016/j.cemconcomp.2007.11.001
  6. EPA, 1987, Part 763-Asbestos ; subpart E-asbestoscontaining materials in schools.
  7. EPA, 2008, Framework for investigating asbestoscontaminated superfund sites. OSWER Directive #9200.0-68.
  8. EPA, 1986, Quantitative estimate of carcinogenic risk from inhalation exposure.
  9. EPA, 1993, Asbestos(CASRN 1332-21-4), Integrated Risk Information System, http://www.epa.gov/iris.
  10. ISO, 2002, ISO 14966 : Ambient air-determination of numerical concentration of inorganic fibrous particles-scanning electron microscopy method.
  11. Jang, B. K., Ryu, J. Y., Park, J. H., Yoon, S. H., Jo, Y. H., Tak, H. W., Cho, C. G., Kong, J. H., Lee, J. W., 2011, Releasing of asbestos fibers in rainwater drained from asbestos cement slate roofing by the time elapsed of rainfall, Soonchunhyang J. Nat. Sci., 17(2), 161-168. https://doi.org/10.15746/sms.11.035
  12. Jung, S. H., Kim, H. R., Koh, S. B., Yong, S. J., Choi, B. S., Ahn, Y. S., Park, T. I., Chung, M. J., Kim, Y. M., Song, J. S., Chung, Y. K., Myung, J. P., 2006, Epidemiologic characteristics revealed with a malignant mesothelioma surveillance system in Korea, Korean J. Occup Environ Med, 18(1), 46-52.
  13. KATS(Korean Agency for Technology and Standards), 2013, KS L 5114:2013, http://www.kats.go.kr.
  14. Kim, H. W., Park, G. Y., Han, J. G., Han, Y. S., H, B. G., Lee, J. H., 2010, Releasing of asbestos fibers from the weatherd asbestos cement slate roofing, J. Korean Soc Occup Environ Hyg, 20(2), 88-93.
  15. KOSHA(Korea Occupational Safety & Health Agency), 2007, A survey for asbestos containing products and databases construction.
  16. MOE(Ministry of Environment), 2009, A comprehensive survey for asbestos management.
  17. MOE(Ministry of Environment), 2010a, A comprehensive measure for slate management.
  18. MOE(Ministry of Environment), 2010b, Guidelines for soil environment management of asbestos-affected areas, such as asbestos mines, etc.
  19. WHO, 2000, Air Quality Guidelines-Second Edition, Chapter 6.2 Asbestos.