大口径毛细管柱气相色谱法直接测定工作场所空气中丙烯酰胺
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摘要
以水为吸收液采集工作场所空气样品中的丙烯酰胺,采用大口径毛细管柱气相色谱法直接测定吸收液中丙烯酰胺的含量,采用HP-INNOWAX色谱柱(30m×0.53mm,1.00μm)分离,氢火焰离子化检测器检测。丙烯酰胺的质量浓度在0.050~3.00mg·L~(-1)内与其对应的峰面积呈线性关系,检出限(3S/N)为0.014mg·L~(-1)。对丙烯酰胺标准溶液进行测定,测定值的日内相对标准偏差(n=6)为1.0%~2.1%,日间相对标准偏差(n=6)为1.3%~2.2%。以空白样品为基体进行加标回收试验,所得回收率为93.0%~102%。
Acrylamide in workplace air sample was collected by water as absorbent.GC with wide bore capillary column was applied to the direct determination of acrylamide in the absorbent.The analyte was separated on HP-INNOWAX chromatographic column(30 m×0.53 mm,1.00μm)and detected by FID.Linear relationship between values of peak area and mass concentration of acrylamide was kept in the range of 0.050-3.00 mg·L~(-1),with detection limit(3 S/N)of 0.014 mg·L~(-1).Acrylamide standard solution was tested,giving values of intra-day RSDs(n=6)and inter-day RSDs(n=6)of determination values in the ranges of 1.0%-2.1%and 1.3%-2.2%,respectively.On the base of blank sample,test for recovery was made by standard addition method;values of recovery found were in the range of 93.0%-102%.
Acrylamide in workplace air sample was collected by water as absorbent.GC with wide bore capillary column was applied to the direct determination of acrylamide in the absorbent.The analyte was separated on HP-INNOWAX chromatographic column(30 m×0.53 mm,1.00μm)and detected by FID.Linear relationship between values of peak area and mass concentration of acrylamide was kept in the range of 0.050-3.00 mg·L~(-1),with detection limit(3 S/N)of 0.014 mg·L~(-1).Acrylamide standard solution was tested,giving values of intra-day RSDs(n=6)and inter-day RSDs(n=6)of determination values in the ranges of 1.0%-2.1%and 1.3%-2.2%,respectively.On the base of blank sample,test for recovery was made by standard addition method;values of recovery found were in the range of 93.0%-102%.
引文
[1] ZHANG Y,REN Y P,ZHANG Y.New research developments on acrylamide:Analytical chemistry,formation mechanism,and mitigation recipes[J].Chemical Reviews,2009,109(9):4375-4397.
[2]张璐佳,杨柳青,王鹏璞,等.丙烯酰胺毒性研究进展[J].中国食品学报,2018,18(8):274-283.
[3] ZHANG Y,ZHANG Y.Formation and reduction of acrylamide in Maillard reaction:A review based on the current state of knowledge[J].Critical Reviews in Food Science and Nutrition,2007,47(5):521-542.
[4]张雁林,赵金垣,徐希娴,等.丙烯酰胺毒性研究进展[J].中国工业医学杂志,2014,27(5):353-356.
[5] GBZ/T 160.62-2004工作场所空气有毒物质测定[S].
[6]孔飞,杨绪廷,郑秀娥,等.工作场所空气中丙烯酰胺的气相色谱测定法[J].环境与健康杂志,2011,28(5):427-429.
[7]祝海珍,成国玉,汪锡灿.作业场所空气中丙烯酰胺的气相色谱直接测定法[J].职业与健康,2009,25(18):1912-1914.
[8]周宇.气相色谱法测定中旋转蒸发和有机溶剂抽提对丙烯酰胺回收率的影响[J].理化检验-化学分册,2009,45(3):276-277.
[9] GBZ/T 210.4-2008职业卫生标准制定指南第4部分:工作场所空气中化学物质测定方法[S].
[10]虞精明,陈纬,易炎忠.水中微量丙烯酰胺的检测方法[J].中国卫生检验杂志,2016,26(16):2425-2428.
[11]王书洲,赵芳芳.工作场所空气中丙烯酰胺检测方法的研究[J].广州化学,2016,41(4):71-73.
[12]马晓燕.毛细管柱气相色谱法测定水中丙烯酰胺[J].环境与发展,2018,30(12):120-121.
[13]吴建刚,黄秋瑾.环境样品中丙烯酰胺分析方法的研究[J].三峡环境与生态,2012,34(4):30-32.
[2]张璐佳,杨柳青,王鹏璞,等.丙烯酰胺毒性研究进展[J].中国食品学报,2018,18(8):274-283.
[3] ZHANG Y,ZHANG Y.Formation and reduction of acrylamide in Maillard reaction:A review based on the current state of knowledge[J].Critical Reviews in Food Science and Nutrition,2007,47(5):521-542.
[4]张雁林,赵金垣,徐希娴,等.丙烯酰胺毒性研究进展[J].中国工业医学杂志,2014,27(5):353-356.
[5] GBZ/T 160.62-2004工作场所空气有毒物质测定[S].
[6]孔飞,杨绪廷,郑秀娥,等.工作场所空气中丙烯酰胺的气相色谱测定法[J].环境与健康杂志,2011,28(5):427-429.
[7]祝海珍,成国玉,汪锡灿.作业场所空气中丙烯酰胺的气相色谱直接测定法[J].职业与健康,2009,25(18):1912-1914.
[8]周宇.气相色谱法测定中旋转蒸发和有机溶剂抽提对丙烯酰胺回收率的影响[J].理化检验-化学分册,2009,45(3):276-277.
[9] GBZ/T 210.4-2008职业卫生标准制定指南第4部分:工作场所空气中化学物质测定方法[S].
[10]虞精明,陈纬,易炎忠.水中微量丙烯酰胺的检测方法[J].中国卫生检验杂志,2016,26(16):2425-2428.
[11]王书洲,赵芳芳.工作场所空气中丙烯酰胺检测方法的研究[J].广州化学,2016,41(4):71-73.
[12]马晓燕.毛细管柱气相色谱法测定水中丙烯酰胺[J].环境与发展,2018,30(12):120-121.
[13]吴建刚,黄秋瑾.环境样品中丙烯酰胺分析方法的研究[J].三峡环境与生态,2012,34(4):30-32.
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