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KMID : 1039220170270030180
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Journal of Korean Society of Occupational and Environmental Hygiene
2017 Volume.27 No. 3 p.180 ~ p.186
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Effect of Sampling Cassettes Type used in Sampling of Airborne Carbon Nanotube(CNT) to Electrostatic Los
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Ham Seung-Hon
Kim Song-Ha
Lee Jin-Ho
Lee Na-Roo
Yoon Chung-Sik
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Abstract
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Objectives: The purposes of this study were to compare the surface resistance of cassettes according to the material, and to evaluate the wall deposition of carbon nanotubes(CNTs) by electrostatic loss in the inner wall of the cassette.
Methods: Surface resistance was measured for three types of cassettes(25 mm polypropylene conductive cowl, 25 mm and 37 mm clear styrene cassettes) with a surface resistance meter. Also, electrostatic wall loss was measured at different weights of CNTs depending on the cassette. CNTs were laid on a weight dish with the cassette for five minutes to provide sufficient time to attach on the wall. Wipe sampling was performed to collect CNTs deposited on the wall and elemental carbon, known as a surrogate for CNTs, was analyzed.
Results: The cassette with conductive materials(18% of black carbon) showed the lowest surface resistance(<1.21¡¿103 ¥Ø). Cassettes made from clear polystyrene showed the relatively highest surface resistance(25 mm: 10.02¡¿109 ¥Ø, 37 mm: 10.59¡¿109 ¥Ø). This means that particles are more likely to stick to the internal wall of styrene cassettes due to electrostatic electricity. This may lead to an underestimation of the airborne concentration of CNTs. The experiment showed that EC was not detected when using a 25 mm conductive cowl cassette, while EC was detected at the internal wall of 25 mm and 37 mm polystyrene cassettes.
Conclusions: This study confirms that cassettes with a conductive cowl have low surface resistance and are more appropriate for CNT sampling. In addition, this finding could be applied for other types of particulate, especially regarding electrostatic charge and sampling.
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KEYWORD
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carbon nanotube, cassette, electrostatic, industrial hygiene, sampling
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