陳志傑2006-07-252018-06-292006-07-252018-06-292005-07-31http://ntur.lib.ntu.edu.tw//handle/246246/4981Certain measurement techniques (such as the asbestos method using phase contrast microscopy) require uniform deposits of the sample on a filter. The asbestos fiber analytical methods require such uniform deposition because the analysis only observes small, randomly chosen locations on the filter. The adequate number of total counting fields and other counting protocols (such as equal distance and equivalent area) still require further study. Moreover, the classification and characterization of the uniformity (or non-uniformity) of filter deposits remains poorly defined. Sampling for asbestos and other fibers is currently conducted with a 25-mm diameter filter cassette and a 50-mm long straight tubular inlet, called a cowl. In this study, a vibrating orifice monodisperse aerosol generator was used to generate methylene blue particles. The aerosols were dried by filtered compressed air and then neutralized by inducing a charge on the droplet stream that emerged from the vibrating orifice. An Aerodynamic Particle Sizer was used to measure the number concentration and size distribution of the generated aerosol particles. Meanwhile, the filter deposits were examined via image processing, combined with statistical methods for defining uniformity. In order to better define uniformity and make the indicator more universal, the uniformity was defined as the exponential of the negative CV (coefficient of variation) value which was a transformation for easily understanding the uniformity of the filter deposits. The experimental results demonstrated that, when aerosol counting was performed, the equivalent area approach was superior to the equivalent distance approach.application/pdf231562 bytesapplication/pdf國立臺灣大學公共衛生學院職業醫學與工業衛生研究所fiber countingimage processingequivalent areauniformityreporthttp://ntur.lib.ntu.edu.tw/bitstream/246246/4981/1/932211E002034.pdf