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      KCI등재후보

      Ethylene glycol류의 작업환경측정 시 탈착용매 종류에 따른 탈착효율 비교 = The Comparison of the Desorption Efficiency according to the Kind of the Desorption Solvent when Measuring the Working Environment of the Kinds of the Ethylene Glycol

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      https://www.riss.kr/link?id=A106916878

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      다국어 초록 (Multilingual Abstract)

      The objectives of this study are to select the proper desorption solvent and the grab sample medium which improve the desorption efficiency when measuring the working environment for Ethylene glycol known for the repreduction toxic substance. Each sub...

      The objectives of this study are to select the proper desorption solvent and the grab sample medium which improve the desorption efficiency when measuring the working environment for Ethylene glycol known for the repreduction toxic substance. Each substance was directly injected into the grab sample medium in a concentration level of the domestic exposure standard 0.1 times, 0.5 times, and 1 time, and was analyzed under the same condition as when measuring the real working environment. EGME, EGEE, and EGMEA showed a high desorption efficiency when using the desorption solvent of 5% MeOH in MC in 2 kinds of grab sample media, and showed a high desorption efficiency in Anasorb 747 tube. However, although characoal tube’s desorption efficiency was lower than Anasorb 747 tube, it showed a better reproducibility. It is judged that it will be appropriate to use the charcoal tube as the grab sample medium and use the desorption solvent of 5% MeOH in MC with regard to EGME, EGEE, and EGMEA.

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      참고문헌 (Reference)

      1 박정근, "페인트 도장공정 공기중 유기용제에 대한두 측정방법 비교 연구" 한국산업보건학회 12 (12): 126-134, 2002

      2 박승현, "반도체 제조 공정에서 발생 가능한 부산물" 한국산업보건학회 22 (22): 52-59, 2012

      3 Saalwaechter, A. T., "Performance testing of the NIOSH charcoal tube technique for the determination of air concentrations of organic vapors" 38 (38): 476-486, 1977

      4 Beck, S. W., "Improved efficiency of desorption of oxgenated solvents from activated charcoal using a new polar additive to carbon disulfide" 5 (5): 171-177, 1990

      5 Kenney, J., "Improved desorption solvents for organic solvent mixtures" 50 (50): 431-434, 1989

      6 Bakin, M. A., "Gassing due to methylene chloride, xylene, toluene, and styrene reported to Her Majesty’s Factory Inspectorate 1961-80" 42 (42): 184-190, 1985

      7 MoEL (Ministry of Employment and Labor), "Exposure limits for chemical substances and physical agents" 2018

      8 Kim, J. K., "Exposure Level research of reproductive toxic chemicals in workplace" KOSHA OSHRI 2014

      9 Rudling, J., "Effect of adsorbed water on solvent desorption of organic vapors collected on activated carbon" 47 (47): 615-620, 1986

      10 Goller, J, W., "Displacement of Polar by Non-Polar Organic Vapors in Sampling Systems" 46 (46): 170-173, 1985

      1 박정근, "페인트 도장공정 공기중 유기용제에 대한두 측정방법 비교 연구" 한국산업보건학회 12 (12): 126-134, 2002

      2 박승현, "반도체 제조 공정에서 발생 가능한 부산물" 한국산업보건학회 22 (22): 52-59, 2012

      3 Saalwaechter, A. T., "Performance testing of the NIOSH charcoal tube technique for the determination of air concentrations of organic vapors" 38 (38): 476-486, 1977

      4 Beck, S. W., "Improved efficiency of desorption of oxgenated solvents from activated charcoal using a new polar additive to carbon disulfide" 5 (5): 171-177, 1990

      5 Kenney, J., "Improved desorption solvents for organic solvent mixtures" 50 (50): 431-434, 1989

      6 Bakin, M. A., "Gassing due to methylene chloride, xylene, toluene, and styrene reported to Her Majesty’s Factory Inspectorate 1961-80" 42 (42): 184-190, 1985

      7 MoEL (Ministry of Employment and Labor), "Exposure limits for chemical substances and physical agents" 2018

      8 Kim, J. K., "Exposure Level research of reproductive toxic chemicals in workplace" KOSHA OSHRI 2014

      9 Rudling, J., "Effect of adsorbed water on solvent desorption of organic vapors collected on activated carbon" 47 (47): 615-620, 1986

      10 Goller, J, W., "Displacement of Polar by Non-Polar Organic Vapors in Sampling Systems" 46 (46): 170-173, 1985

      11 Johansen, I., "Dimethylform amide and carbon disulphide desorption efficiencies for organic vapours on gas-sampling charcoal tube analyses with a gas chromatographic backflush technique" 217 : 317-326, 1981

      12 Mueller, F. X., "Determination of airborne organic vapor mixtures using charcoal tubes" 40 (40): 380-386, 1979

      13 Fracchia, M., "Desorption of organic solvents from charcoal collection tubes" 38 (38): 144-146, 1977

      14 Posner, J. C., "Desorption of organic analytes from activated carbon Ⅰ : Factors affecting the process" 42 (42): 126-134, 1981

      15 White, L. D., "A convenient optimized method for the analysis of selected solvent vapors in the industrial atmosphere" 31 (31): 225-232, 1970

      16 Kim, K. R., "A Study on Desorption Efficiency for Polar Solvents Collected on Charcoal Tube" 5 (5): 104-118, 1995

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