Journal of Korean Society of Occupational and Environmental Hygiene (한국산업보건학회지)

Korean Industrial Hygiene Association (한국산업보건학회)
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An Evaluation on Airborne Particulate and It's Components in the Welding Workplace for the Ship Construction Industry

조선업 용접작업장의 공기중 입자상물질 및 구성성분에 관한 연구

  • Kang, Yong-Seon (Changwon General Hospital, Workers Accident Medical Corporation) ;
  • Shin, Joong-Kyu (Faculty of Health Science, Daegu Hanny University) ;
  • Lee, Song-Kwon (Faculty of Health Science, Daegu Hanny University) ;
  • Yoon, Chung-Sik (Dept. of Occupational Health, Catholic University of Daegu) ;
  • Lim, Moo-Hyuk (Faculty of Health Science, Daegu Hanny University) ;
  • Park, Man-Chul (Occupational Health & Environmental Technology Center, Samsung Techwin Co. Ltd) ;
  • Sim, Sang-Hyo (Dept of Occupational and Environmental Medicine, Hanyang University Medical Center)
  • 강용선 (산재의료관리원 창원병원) ;
  • 신중규 (대구한의대학교 보건학부) ;
  • 이송권 (대구한의대학교 보건학부) ;
  • 윤충식 (대구가톨릭대학교 산업보건학과) ;
  • 임무혁 (대구한의대학교 보건학부) ;
  • 박만철 (삼성테크윈(주) 보건환경기술센터) ;
  • 심상효 (한양대학교병원 산업의학과)
  • Received : 2006.08.16
  • Accepted : 2007.09.28
  • Published : 2007.09.30
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Abstract

This research was performed to evaluate the airborne personal concentration of hazardouse materials during the process of ship construction and surveyed from May 23 to June 30, 2007 in Kyungnam West Distirct, Korea. The subject was 94 ship construction workers exposed to welding fume and respirable particulate. The airborne concentrations of those were compared to Permissible Exposure Limit(PEL) from the Ministry of Labor in Korea. The airborne concentration of 23 samples(48.9%) of welding fumes was less than $5mg/m^3$, that of 16 (34.0%) was between 5 and $10mg/m^3$, and that of 8 (17.0%) was greater than $10mg/m^3$. The airborne concentration of 27 (57.4%) of respirable particulate masses was less than $5mg/m^3$ and the othere are greater than $5mg/m^3$. The welding fumes were identified containing the heavy metasl such as Fe, Mn, Zn, Mg, Ca, and Cu. The respirable particulates has similiar tendency with welding fumes in the component of heavy metals. But the concentration of Ca, Cu, Cr, and Ni turned out to be higher in welding fumes. Twenty (42.6%) of the 47 samples of welding fumes were exceeded PEL. In the heavy metals in welding fumes, ten (21.3%) of the 47 samples of Mn were exceeded PEL. Based on the results, the higher airborne hazardous materials were still exposed to wokers in ship construction process. It is suggested that the appropriate engineering control be applied to minimize the exposed cocnetration in ship building processes.

Keywords

References

  1. 곽영순, 백남원. 모조선소의 밀폐된 작업장에서의 공기 중 용접 흄 및 중금속 농도에 관한 조사 연구. 한국산업위생학회지 1997;7(1):113-131
  2. 김광종, 송기창. 모 조선업 작업장의 공기 중 용접 흄농도에 관한 조사. 한국산업위생학회지 1991;1(1):68-72
  3. 김동구. 소규모사업장 용접근로자들의 소음.망간 노출에 관한 연구. 인제대학교 보건대학원 석사학위논문 2002
  4. 김양호, 김재우, 이토켄고, 임현술, 신용철, 김규상. 망간중독이 의심되었던 용접공에서의 양전자방출단층촬영(PET) 결과. 제19차 추계학술대회연제집 대한산업의학회 1997
  5. 노동부. 화학물질 및 물리적인자의 노출기준(노동부 고시 2002-8호. 2002.5.6) 2002; p4
  6. 노동부. 작업환경측정 및 정도관리규정(노동부 고시 2005-49호. 2005.12.30) 2005; p28-30
  7. 문희범, 김유영, 강석영. 용접용제에 의한 직업성 천식 1예. 알레르기 1985;190-192
  8. 변상훈, 박승현, 김창일, 박인정, 양정선, 오세민, 문영한. 일부 업종의 용접 흄 분석 및 폭로농도에 관한 연구. 한국산업위생학회지 1995;5(2):172-174
  9. 이종화, 장지선, 박종안, 장봉기. 충청지역 일부 공업고등학교 실습생의 용접 흄 및 망간에 대한 노출 평가. 한국산업위생학회지 2001;27(4):51-62
  10. 이권섭, 백남원. 용접작업 형태별 공기 중 용접 흄 농도와 금속성분에 관한 조사 연구. 한국산업위생학회 1994;4(1):71-80
  11. 윤충식. 용접공정의 흄 발생량과 공기 중 6가 크롬에 관한 연구. 서울대학교 보건대학원 박사학위논문 1999;4-52
  12. 조영수, 서해숙, 박해심. 금속 아크 용접공에서 발생한 직업성천식1예. 알레르기 1992;218-221
  13. 조선정보. 세계조선지표. 2000; 76-79
  14. 전찬규. 일부 선박조립 작업장내 용접 흄 농도분포와 작업자들의 용접 흄 노출에 관한 연구. 서울대학교 보건대학원 석사학위논문 2001
  15. 정춘화, 임현우, 구정완, 박정일. 조선업 용접공의 용접 흄 생애누적노출량을 이용한 환기기능 평가. 대한산업의학회지 2002;14(4):364-376
  16. 채홍재, 이성관, 이강진, 문재동. 조선소 근로자들의 근골격계 질환 양상과 중재적 보건관리 효과. 대한산업의학학회지 2002;14(4):468-477
  17. 한국산업안전공단. 조선업 근로자 건겅관리(분진작업편) 1996;9-35
  18. Phoon, WH & Tan, KT. Welding Fumes in Shipyards. Occupational Health and Safety 1983;2:19-25
  19. American Welding Society. Methods for sampling airbone particulate generated by welding and allied process. Miami F1 1976;1-78
  20. American Welding Society. Methods for sampling airborne particulate generated by welding and allied process 1976;AWS8 ANSI/AWS F1:1-78
  21. National Institute for Occupational Safety and Health: NIOSH Manual of Analytical Methods, 4th ed. NIOSH, Cincinnati, OH, 1994;94-113
  22. Palmer WG. Effects of welding on health IV. Miami, Fl, American Welding Society 1983;1-10
  23. Evans MJ, Ingle J, Molyneux MK, Sharp GTH. An Occupational Hygiene Study of A Controlled Welding Task Using A General Purpose Rutile Electrode. Ann. Occup. Hyg. 1979;22:117
  24. Karlsen JT, Torgrimser T, Langard S. Exposure to Solid Aerosols during Regural MMA Welding and Grinding Operations on Stainless Steel, Am. Ind. Hyg. Assoc 1994;55(12):1149-1153 https://doi.org/10.1080/15428119491018222