Annals of Occupational Hygiene Advance Access originally published online on August 19, 2006
Annals of Occupational Hygiene 2007 51(2):173-187; doi:10.1093/annhyg/mel057
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Aerodynamics and Performance Verifications of Test Methods for Laboratory Fume Cupboards
1 Institute of Occupational Medicine and Industrial Hygiene, National Taiwan University 1 Jen-Ai Road, Section 1, Taipei
2 Department of Mechanical Engineering, National Taiwan University of Science and Technology 43 Keelung Road, Section 4, Taipei
3 Institute of Occupational Safety and Health, Council of Labor Affairs 99 Lane 407, Hengke Road, Sijhih City, Taipei, Taiwan
*Author to whom correspondence should be addressed. Tel: +886 2 2737 6488; fax: +886 2 2737 6460; e-mail: rfhuang{at}mail.ntust.edu.tw
The laser-light-sheet-assisted smoke flow visualization technique is performed on a full-size, transparent, commercial grade chemical fume cupboard to diagnose the flow characteristics and to verify the validity of several current containment test methods. The visualized flow patterns identify the recirculation areas that would inevitably exist in the conventional fume cupboards because of the fundamental configurations and structures. The large-scale vortex structures exist around the side walls, the doorsill of the cupboard and in the vicinity of the near-wake region of the manikin. The identified recirculation areas are taken as the ‘dangerous’ regions where the risk of turbulent dispersion of contaminants may be high. Several existing tracer gas containment test methods (BS 7258:1994, prEN 14175-3:2003 and ANSI/ASHRAE 110:1995) are conducted to verify the effectiveness of these methods in detecting the contaminant leakage. By comparing the results of the flow visualization and the tracer gas tests, it is found that the local recirculation regions are more prone to contaminant leakage because of the complex interaction between the shear layers and the smoke movement through the mechanism of turbulent dispersion. From the point of view of aerodynamics, the present study verifies that the methodology of the prEN 14175-3:2003 protocol can produce more reliable and consistent results because it is based on the region-by-region measurement and encompasses the most area of the entire recirculation zone of the cupboard. A modified test method combined with the region-by-region approach at the presence of the manikin shows substantially different results of the containment. A better performance test method which can describe an operator’s exposure and the correlation between flow characteristics and the contaminant leakage properties is therefore suggested.
Keywords: flow visualization • laboratory fume cupboard • performance • tracer gas • turbulent dispersion • vortex
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