• P-ISSN1225-0163
  • E-ISSN2288-8985
  • SCOPUS, ESCI, KCI

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  • P-ISSN 1225-0163
  • E-ISSN 2288-8985

The distribution characteristics of persistent organic pollutants in incineration residues at solid waste incinerators

Analytical Science and Technology / Analytical Science and Technology, (P)1225-0163; (E)2288-8985
2009, v.22 no.2, pp.119-127







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Abstract

This study was carried out to investigate the distribution characteristics of persistent organic pollutants in incineration residues at industrial waste incinerators and municipal solid waste incinerators, which were analyzed by the official analytical method for the endocrine disrupting chemicals and the waste. Seven of 12 persistent organic pollutants were quantitatively analyzed by GC-MSD (SIM-mode). Hexachlorobenzene was detected in 21 samples among 44 incineration residues. The level of hexachlorobenzene was 0.132-8.138 ng/g in incineration residues, 0.195-5.765 ng/g in fly ash at industrial waste incinerators, 0.270-1.828 ng/g in bottom ash and 0.154-50.643 ng/g in fly ash at municipal solid waste incinerators, respectively.

keywords
persistent organic pollutants, endocrine disrupting chemicals, bottom ash, fly ash, incineration residues


Reference

1

1. B. G. Jung, Y. I. Choi and J. K. Kim, J. of the Environmental Science, 17(4), 397-403(2008).

2

2. 환경부, 폐기물관리법, pp.1-10, 2004.

3

3. S. C. Kim, C. K. Shin, K. C. Lee, M. H. Kwon, J. H. Lee, S. G. Jeong, G. J. Song, K. E. Park, S. H. Song and K. H. Kim, NIER(Incheon), Korea, pp.359-379(2001).

4

4. http://www.greensamsung.com

5

5. 환경부, 잔류성 유기오염물질 관리법시행령, pp.2- 10(2008).

6

6. S. C. Kim, S. H. Choe, J. G. Na, J. H. Lee, K. H. Kim, S. R. Hwang, J. Y. Chang and H. J. Cho, NIER (Incheon), Korea, pp. 61-76(2003).

7

7. H. B. Moon, S. J. Lee, Y. Lee and J. S. Park, J. of the Environmental Science, 14(2), 121-128(2005).

8

8. 국립환경과학원, 폐기물공정시험방법, pp.33-34(2007).

9

9. 국립환경과학원, 내분비계 장애물질 측정분석방법, pp.26-44(1999).

10

10. K. J. Hong, S. T. Okunaga and T. Kajiuchi, J. of Hazardous Materials, 75(1), 57-73(2000).

11

11. C. H. Jung, T. Matsuto, N. Tanaka and T. Okada, Waste Management, 24(4), 381-391(2004).

12

12. M. Osako and Y. J. Kim, Chemosphere, 54(1), 105- 116(2004).

13

13. Y. Wang, Q. Zhang, J. Lv, A. Li, H.Liu, G. Li and G. Jiang, Chemosphere, 68(9), 1683-1691(2007).

14

14. http://www.ecoi.or.kr

15

15. D. R. Rushneck, A. Beliveau, B. Fowler. C. Hamiton, D. Hoover, K. Kaye, M. Berg, T. Smith, W.A. Tellard, H. Roman, E. Ruder and L. Ryan, Chemosphere, 54(1), 79-87(2004).

16

16. Y. Akimito, T. Aoki, S. Nito and Y. Inouye, Chemosphere, 34(2), 263-273(1997).

17

17. I. Johansson and B. V. Bavel, Chemosphere, 53(2), 123-128(2003).

18

18. A.D. Wheatley and S. Sadhra, Chemosphere, 55(5) 743-749(2004).

19

19. B. Dellinger, H. Philip and A.Tirey, Minimization and control of hazardous combustion byproducts, EPA 600152-90/-39(1991).

20

20. D. Lenoir, A. Wehrmeier, S. S. Sidhu and P. H. Taylor, Chemosphere, 43, 107-114(2001).

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