Abstract
This research was conducted to study the correlations between the airborne mercury concentration and each independent variable to detect the source of mercury contamination in a total or II fluorescent lamp manufacturing factories-
The mercury concentraion in air was measured and informations about production management (operation hour, overtime, vacuum exhaustion system, number of droppers, number of vacuum exhaustion pumps, frequency of mercury infusion, mercury consumption per lamp, number of lamps producted, number of inferior lamps producted, number of breakage lamps, local exhaust ventilation system) were collected from January 1988 to March 1989.
The results were as follows:
1. Among the airborne mercury concentrations according to the sampling point the highest mean concentration was 0.162mg/m3(0.016-0.635 mg/m3) at the workplace floor, and 0.074 mg/m3 at the vaccum exhaustion pump site, and 0.06 mg/m3 at the breathing zone in order.
2. The correlation between airborne mercury concentration and each Independent variable was significant in a following order; the number of Inferior lamps productedt(0.485), vacuum exhaustion syatem(-0,405), number of breakage lamps (0.344), operation hourl(0.341), number of vacuum exhaustion pumps(0.337) and local exhaust ventilation systern(0.331).
3. The result of stepwise multiple regression analysis showed that the airborne mercury consumption was affected by number of inferior lamps producted, frequency of mercury infusion, overtime, ventilator, mercury consumption amounts per lamp, local exhaust ventilation system in order. And these six variables explained 36.7% of the variance of airborne mercury concentration.