光散射学报, 2010, 22 (1): 90, 网络出版: 2014-01-16  

微波消解-氢化物发生原子荧光法测定重油中的砷和汞

Microwave Digestion HG-AFS Method for Determining Arsenic and Mercury in Heavy Oil
作者单位
1 抚顺石油化工研究院九室, 辽宁 113001
2 辽宁石油化工大学应用化学系, 辽宁 113001
摘要
采用微波消解处理样品,以硫脲为预还原剂硼氢化钾为还原剂,氢化物发生原子荧光法测定重油中的砷和汞。采用微波消解方法进行样品处理,其结果表明,方法具有高效快速、试剂消耗量少、节能、环保等优点。考察了预还原剂硫脲和抗坏血酸对测定结果的影响。考察了酸度、还原剂浓度、基体效应、光电倍增管负高压、原子化器高度、灯电流和载气流量的影响,优化操作条件。测定砷和汞的线性范围分别为2~12μg/L和0.2~1.2μg/L,线性回归方程为If=a*c+b(c:μg/L),相关系数分别为0.9998和0.9981,砷和汞的检出限分别为0.009μg/L和0.007μg/L,对7个样品进行回收实验,砷、汞的回收率分别为90%~109%、92%~105%准确度较高;11次测定的标准偏差小于5%,精密度较好。本方法用于重油中砷和汞分析,可满足科研和生产需要。
Abstract
The heavy oil was treated by microwave digestion.The arsenic and mercury were pre-reduced by thiourea,and then determined by hydricde generation atomic fluorescence spectrometry.The linear ranges were 2~12 ppb for As and 0.2~1.2 ppb for Hg.The equation of linear regression is If=a*c+b.The coefficients of correlation were 0.9998 and 0.9981 respectively.The determination limit of arsenice is 0.009μg/L,and 0.007μg/L for mercury.Incpected the acidity,pre-reducing agent and reducing agent usage,matrix modifier and carrier flow rate,the acidity of carrier,light current,as well as the impact of coexistence element interference.The recoveries were 90%~109%(n=7)for arsenic,and 92%~105%(n=7)for mercury,with good accuracy.The relative standard deviations(n=11)were lower than 10%.The accuracy of arsenic was 2.5%,the accuracy of mercury was 3.3%.It can contented the requirement of scientific research and production.In this paper,The heavy oil was treated by microwave digestion,and the results showed that the microwave digestion method is efficient,rapid and less reagent consumption and energysaving and environmental protection features.The analysis of the results is satisfy.

赵荣林, 凌凤香, 孙振国, 张萍, 刘丽华, 辛明. 微波消解-氢化物发生原子荧光法测定重油中的砷和汞[J]. 光散射学报, 2010, 22(1): 90. ZHAO Rong-lin, LING Feng-xiang, SUN Zhen-guo, ZHANG Ping, LIU Li-hua, XIN Ming. Microwave Digestion HG-AFS Method for Determining Arsenic and Mercury in Heavy Oil[J]. The Journal of Light Scattering, 2010, 22(1): 90.

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