摘要
目的探讨同时测定涉水塑料管材浸泡液中砷、锑的方法,以提高工作效率。方法采用氢化物发生-原子荧光法进行测定。砷、锑灯电流均为60mA,负高压280V,介质酸度8%,硼氢化钾浓度1.0%。结果砷在0~80μg/L范围内线性良好,相关系数0.9995,检出限0.074μg/L,相对标准偏差1.43%~3.14%,回收率94.7%~100.5%;锑在0~40μg/L范围内线性良好,相关系数0.9996,检出限0.17μg/L,相对标准偏差1.34%~2.75%,回收率91.3%-107.0%。结论此法适用于涉水塑料管材中砷和锑的同时测定。
Objective To establish a method to simultaneously determine arsenic and antimony existed in soaked liquid of plastic pipes in order to improve work efficiency. Methods A quantitative method of hydride generation - atomic fluorescence spectrometry was carried out. The electric currents of arsenic and antimony lamps were both 60 mA. PMT was 280 V, the acidity was8%, 1.0% KBH4 was used. Results The linear range of the arsenic was 0 - 80 ug/L with correlation coefficient of 0 . 9995 , the detection limit of this method was 0. 074 ug/L, the relative standard deviation and recovery rate of arsenic were 1.43% - 3.14% and 94.7- 100.5% respectively. The antimony had a good linear result in the range of 0-40 ug/L , and the correlation coefficient was 0.999 6, the detection limit was 0.17 ug/L, relative standard deviation and recovery rate of antimony were 1.34% - 2.75 % and 91.3 % - 107.0% respectively. Conclusion This method is available to simultaneously determine arsenic and antimony in soaked liquid of plastic water pipe.
出处
《中国卫生工程学》
CAS
2006年第4期226-228,共3页
Chinese Journal of Public Health Engineering
关键词
原子荧光法
涉水产品卫生
塑料管材
砷
锑
Atomic fluorescence spectrometry
Sanitation of related hygienic safety products for drinking water
Hastic pipe for water supply
Arsenic
Antimony
