Article Detail

Home > Article Detail
  • P-ISSN 1225-0163
  • E-ISSN 2288-8985

Prev

Next

Vol.30, No.6
Citation Share

Paint booth volatile organic compounds emissions in an urban auto-repair center

Analytical Science and Technology / Analytical Science and Technology, (P)1225-0163; (E)2288-8985
2017, v.30 no.6, pp.329-337
https://doi.org/10.5806/AST.2017.30.6.329


Jan E. Szulejko




Jan, E. S. , & (2017). Paint booth volatile organic compounds emissions in an urban auto-repair center. Analytical Science and Technology, 30(6), 329-337, https://doi.org/10.5806/AST.2017.30.6.329
  • Downloaded
  • Viewed

Abstract

A major concern regarding most auto-repair shops in residential areas is the emission of odorous volatile organic compounds (VOCs) into the local atmosphere, especially during painting operations. VOCs contribute to poor local air quality and are responsible for the perceived odor and discomfort experienced by local residents. Sixteen major VOCs (6 aromatic hydrocarbons and 10 aliphatic carbonyl compounds) were selected as potential target compounds. The site was an auto-repair shop located in a central region of Seoul, South Korea, where the air quality of the site has been a subject of residents’ complaints. The sampling points were as follows: 1) in the painting booth with new (NB) or old (OB) removal system, (2) in the exhaust duct after new (ND) or old (OD) odor removal filter, and (3) 2 m below the discharge vent (4 m above the ground) (outdoor air, OA). Each sample was coded: (1) before painting (BP), (2) during painting (DP), and (3) after painting (AP). The toluene level in the duct with the new removal filter during painting (ND-DP) was 1.5 ppm (v/v), while it was 3.8 ppm (v/v) in the right duct with an old removal filter during painting (OD-DP). Accordingly, the effect of filter replacement was reflected by differences in VOC levels. Therefore, accurate monitoring of odorous VOCs is an important step to reduce odor nuisance from local sources.

keywords
VOCs, Toluene, auto-painting operation, indoor air pollution, and painting


Reference

1

1. KMOLIT, I. a. T. Korean Ministry of Land, Ed., 2016a.

2

2. L. Mølhave, B. Bach and O. F. Pedersen, Environ. Int., 12(1-4), 167-175 (1986).

3

3. WHO, EURO Reports and Studies, 111, 70 (1989).

4

4. R. McLaren, D. Singleton, J. Lai, B. Khouw, E. Singer, Z. Wu and H. Niki, Atmos. Environ., 30(12), 2219-2232(1996).

5

5. B. R. Kim, Environ. Eng. Res., 16(1), 1-9 (2011).

6

6. B. Zielinska, J. C. Sagebiel, G. Harshfield, A. W. Gertler and W. R. Pierson, Atmos. Environ., 30(12), 2269-2286(1996).

7

7. J. Colón, C. Alvarez, M. Vinot, F. Lafuente, S. Ponsá, A. Sánchez and D. Gabriel, Chem. Eng. J., 313, 1311-1319 (2017).

8

8. IARC, ‘Agent classified by the IARC monographs’, International agency for research on cancer.

9

9. KMOE, Korea Ministry of Environment, 2009.

10

10. KMOE, Korea Ministry of Environment, 2016.

11

11. V. Isidorov, I. Zenkevich and B. Ioffe, Atmos. Environ. (1967), 19(1), 1-8 (1985).

12

12. E. Cetin, M. Odabasi and R. Seyfioglu, Sci. Total Environ., 312(1), 103-112 (2003).

13

13. K.-H. Kim, P. Kumar, J. E. Szulejko, A. A. Adelodun, M. F. Junaid, M. Uchimiya and S. Chambers, Chemosphere (2017).

14

14. H. T. Nguyen, K.-H. Kim and M.-Y. Kim, J. Hazardous Materials, 161(1), 163-174 (2009).

15

15. KMOE, Korea Ministry of Environment, 2014.

16

16. S. Papasavva, S. Kia, J. Claya and R. Gunther, Prog. Org. Coat., 43(1), 193-206 (2001).

17

17. A. Schieweck and M.-C. Bock, Build. Environ., 85, 243-252 (2015).

18

18. T. Huybrechts, J. Dewulf and H. Van Langenhove, Water Res., 38(14), 3241-3250(2004).

19

19. A. Kitto, M. Pirbazari, B. Badriyha, V. Ravindran, R. Tyner and C. Synolakis, Environ. Technol., 18(2), 121-138(1997).

20

20. A. Termonia and M. Termonia, Inter. J. Environ. Anal. Chem., 73(1), 43-57 (1999).

21

21. W. P. Carter, Air & Waste, 44(7), 881-899 (1994).

22

22. J. Zhang and K. R. Smith, Environ. Sci. Technol., 33(14), 2311-2320 (1999).

23

23. K. Müller, M. Pelzing, T. Gnauk, A. Kappe, U. Teichmann, G. Spindler, S. Haferkorn, Y. Jahn and H. Herrmann, Chemosphere, 49(10), 1247-1256 (2002).

24

24. L. D. Claxton, Environ. Sci. Technol., 20, 1008-1013(1988).

25

25. P. Carlier, H. Hannachi, and G. Mouvier, Atmos. J. Environ. (1967), 20(11), 2079-2099(1986).

26

26. M. Hauptmann, J. H. Lubin, P. A. Stewart, R. B. Hayes and A. Blair, Am. J. Epidemiol., 159(12), 1117-1130(2004).

27

27. WHO (2000).

28

28 E. O. Edney, P. B. Shepson, T. E. Kleindienst and E. W. Corse, Intern. J. Chem. Kinet., 18(5), 597-608 (1986).

29

29. K.-H. Kim, Y.-J. Hong, R. Pal, E.-C. Jeon, Y.-S. Koo and Y. Sunwoo, Chemosphere, 70(5), 807-820 (2008).

30

30. KOSIS, KOSTAT, Ed., KOSTAT, 2007.

31

31. KMOLIT, Ed., Republic of Korea, 2016b.

32

32. R. Vincent, P. Poirot, I. Subra, B. Rieger and A. Cicolella, Intern. Arch. Occup. Environ. Health, 65(6), 377-380(1994).

33

33. C.-T. Chang and K.-L. Lin, Resour. Conserv. Recycl., 46(4), 321-334 (2006).

34

34. J.E. Szulejko and K.-H. Kim, (Unpublished).

35

35. ACGIH, American Conference of Governmental Industrial Hygienists (2004).

36

36. OSHA, Occupational Safety and Health Administration (2004).

37

37. U. B. Celebi and N. Vardar, Atmosp. Environ., 42(22), 5685-5695 (2008).

38

38. S. Foo, J. Jeyaratnam and D. Koh, Occup. Environ. Med., 47(7), 480-484 (1990).

39

39. C. M. Filley, W. Halliday and B. Kleinschmidt-DeMasters, J. Neuropathol. Exp. Neurol., 63(1), 1-12 (2004).

40

40. Y. Nagata and N. Takeuchi, Odor Meas. Rev., 118, 127(2003).

  • Downloaded
  • Viewed
  • 0KCI Citations
  • 0WOS Citations

Other articles from this issue

Recommanded Articles

상단으로 이동

Browse Articles

Info

Editorial Policy

Bulletin Board

COPYRIGHT ⓒ Analytical Science & Technology - The Korean Society of Analytical Science
127, Mapo-daero, Mapo-gu, Seoul, Korea;1603 Poonglim VIPTel
proton@jbnu.ac.kr

  This website recommended the use   the Chrome browser for journal website.

Analytical Science and Technology

e-Submission OA Policy